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Electrochemistry, Electrochemical Interfaces, Electrocatalysis, Nanomaterials, Biosensors, Bioassays
Dr. Rajendra Kumar Reddy committed researcher specialized in the fields of electrochemistry, biosensors and nanotechnology. He received M.Sc. in Nanomaterials and Technologies from Sri Venkateswara University, India (2010) and Ph.D. in Electrochemical biosensors from SASTRA Deemed University, India (2018).
With Keen focus on advancing electroanalysis and electrocatalysis, Dr. Rajendra's research centers around the development of innovative materials. He possesses 1.8 years of industrial experience and 2.5 years of postdoctoral experience, specializing in the areas such as electrochemsity, biosensor design and validation and nanomaterials development for real time applications.
Dr. Rajendra actively contributes to various research activities, including spectro-electrochemistry, electrode development, and biosensor design for real time applications.
Andrea Ugalde Pallarés finished her Chemical Engineering degree in 2022 at the University of Basque Country. Her bachelor thesis was based on the extension of the water supply by means of seawater desalination for the Canary Islands, after participating for six months in an internship working on the osmosis process of seawater desalination.
After finishing her studies, she participated for three months in an internship at BCMaterials. She worked on sustainable batteries fabrication, mainly on the use of the laser induced graphene (LIG) technique to engrave current collectors.
Currently, she is working in the BIDEKO Project (Biodegradable and compostable batteries for precision agriculture and decentralized energy systems) as a researcher in biodegradable battery fabrication and characterization. She will also combine the research in the BIDEKO project with a master's degree in environmental management.
Inorganic synthesis, single crystal X-ray diffraction
Estibaliz Ruiz-Bilbao graduated in Chemistry from the University of the Basque Country (2016), and continued her Master studies in New Materials at the University of Leeds (UK, 2017). Recently, she obtained a PhD in the field of Inorganic Chemistry from the University of the Basque Country (2023) about ‘Polyoxometalate-Based Hybrids with 3d- and 4f-Metal Complexes Bearing Multidentate Organic Ligands – From Magnetoluminescent Molecular Species to Extended Frameworks with Sorption Ability’. Currently, Estibaliz is a post-doctoral researcher at the BCMaterials-Basque Center for Materials, Applications and Nanostructures.
Her research interest are focused on Polyoxometalate Chemistry and the application of POMs in molecular magnetism.
His expertise focalizes in the investigation of magnetic shape memory alloys in polycrystalline, single-crystal and thin film forms, as well as in nanomagnetism, and in particular in thin film and interacting nanostructures’ magnetism. Complementary to these, his research interests also include the design and fabrication of patterned magnetic micro and nanostructures by means of advanced lithography techniques, and in the characterization of all the aforementioned materials by means of large-scale facilities such as synchrotron and neutron radiation sources. His current research activities include the design and development of ferromagnetic shape memory alloys undergoing patterning processes, the study of all-optical switching phenomena in magnetic multi-layered thin films, and the study of a novel class of interacting magnetic materials called Artificial Spin-Ices.
Dr. Jose María Porro is currently an Ikerbasque Research Fellow and Neutron Science research line co-leader at BCMaterials, Leioa, Bizkaia, Spain. He obtained his “licenciatura en física” (2008), his Master in Nanoscience (2010) and his PhD in Materials Physics (2014), from the University of the Basque Country. He developed his PhD at the nanomagnetism group of CIC nanoGUNE (Donostia-San Sebastián, Gipuzkoa, Spain), under the supervision of Prof. Paolo Vavassori. After his PhD, he was a post-doctoral research associate at the ISIS neutron and muon source of the Rutherford Appleton Laboratory (Oxfordshire, UK) until September 2017. At the same time, he was a visiting scientist at the Diamond Light Source synchrotron of the UK. In 2017 he secured a Marie Sklodowska-Curie Fellowship (MSCA-IF) at BCMaterials, followed by an Ikerbasque Fellowship in late 2019 at the same institution. He has undergone research stays at leading international research institutions such as the Lawrence Berkeley National Laboratory (California, USA), the Brookhaven National Laboratory (New York, USA), the Institute Laue-Langevin (Grenoble, France), the Kernfysisch Versneller Instituut of the University of Groningen (Netherlands) and the Nanotechnology Core Facility of the University of Illinois at Chicago (USA).
He has secured funding for this research activities, both as PI and as project member, from European (H2020, MSCA actions), international (EPSRC, UK), national (MINECO RETOS) and regional (PIBA, ELKARTEK) funding schemes. He is author and co-author of around 30 research articles published in indexed international leading peer-reviewed journals. He contributes to the organization of conferences and workshops, including being member of the Program Committee of the Magnetism and Magnetic Materials conference series, as well as of the Scientific Committee of the IMoH'22 conference in the area of neutron sciences . He has contributed to international and national conferences, including 6 invited talks in the last two years. He is currently a member of the Board of Directors of the Spanish Society of Neutron Techniques (Sociedad Española de Técnicas Neutrónicas, SETN), member of the Magnetic Materials Committee of the TMS (The Minerals, Metals and Materials Society) of the USA, and of the user committee of the IBR-2 neutron source (Dubna, Russia). He is an Editorial Board Member of the journal Magnetochemistry (IF: 3.336), an evaluator for the Spanish AEI on “Generación de conocimento” project calls, and scientific expert (evaluator of neutron beamtime proposals) in the panel “Nanosystems and soft matter” for the IBR-2 neutron source, as well as for ANSTO, the Australian Neutron Source. He is a lecturer on the Master in New Materials of the University of the Basque Country (UPV/EHU), has supervised three Master Thesis, as well as several TFGs and short research internships, and currently supervises four PhD students.
Humidity Sensors Based on Magnetic Ionic Liquids Blended in Poly(vinylidene fluoride- co-hexafluoropropylene)Serra J.P., Fernandes L.C., Pereira N., Fidalgo-Marijuan A., Porro J.M., Costa C.M., Correia D.M., Lanceros-Mendez S. ACS Applied Polymer Materials (In Press) |
Structure-property control of polycrystalline Ni-Mn-Ga by moderate Co-dopingNamvari M., Chernenko V., Saren A., Porro J.M., Ullakko K. Journal of Alloys and Compounds, 944, 169184, (2023) |
Advanced Neutron and Synchrotron Characterization Techniques for Nanocomposite Perovskite Materials Toward Solar Cells ApplicationsPorro J.M., Shalan A.E., Salado M. Engineering Materials, 613, 661, (2022) |
Competition of Magnetic Anisotropies in Permalloy Antidot LatticesPorro J.M., Villar A., Redondo C., Río-López N.A., Lasheras A., Salazar D., Morales R., Fernández-Martín E. Magnetochemistry, 8, 5, 55, (2022) |
Designing Metal-Chelator-like Traps by Encoding Amino Acids in Zirconium-Based Metal-Organic FrameworksValverde A., Tovar G.I., Rio-López N.A., Torres D., Rosales M., Wuttke S., Fidalgo-Marijuan A., Porro J.M., Jiménez-Ruiz M., García Sakai V., García A., Laza J.M., Vilas-Vilela J.L., Lezama L., Arriortua M.I., Copello G.J., Fernández De Luis R. Chemistry of Materials, 34, 21, 9666, 9684, (2022) |
Lithium-Ion Battery Solid Electrolytes Based on Poly(vinylidene Fluoride)-Metal Thiocyanate Ionic Liquid BlendsSerra J.P., Fidalgo-Marijuan A., Barbosa J.C., Correia D.M., Gonçalves R., Porro J.M., Lanceros-Mendez S., Costa C.M. ACS Applied Polymer Materials, 4, 8, 5909, 5919, (2022) |
Magnetic Properties of Tetragonal SmFe12−xMox Alloys in Bulk and Melt-Spun RibbonsRodríguez-Crespo B., Garcia-Franco A., Rosero-Romo J.J., Echevarria-Bonet C., Porro J.M., Saiz P.G., Salazar D. Physica Status Solidi (A) Applications and Materials Science, 219, 15, 2100725, (2022) |
Denitrogenation process in ThMn12 nitride by in situ neutron powder diffractionAubert A., Puente-Orench I., Porro J.M., Luca S., Garitaonandia J.S., Barandiaran J.M., Hadjipanayis G.C. Physical Review Materials, 5, 1, 014415, (2021) |
Enhanced performance of magnetoelectric laminated composites by geometry engineering for high frequency applicationsLasheras A., Saiz P.G., Porro J.M., Quintana I., Polak C., Lopes A.C. Journal of Alloys and Compounds, 884, 161065, (2021) |
Influence of the magnetic domain structure in the mass sensitivity of magnetoelastic sensors with different geometriesSaiz P.G., Porro J.M., Lasheras A., Fernández de Luis R., Quintana I., Arriortua M.I., Lopes A.C. Journal of Alloys and Compounds, 863, 158555, (2021) |
Neutron scattering as a powerful tool to investigate magnetic shape memory alloys: A reviewRío‐lópez N.A., Lázpita P., Salazar D., Petrenko V.I., Plazaola F., Chernenko V., Porro J.M. Metals, 11, 5, 829, (2021) |
Spontaneous zero-field cooling exchange bias in ni–co–mn– sn metamagnetic heusler sputtered filmAlexandrakis V., Rodríguez-Aseguinolaza I., Anastasakos-Paraskevopoulos D., Barandiarán J.M., Chernenko V., Porro J.M. Nanomaterials, 11, 9, 2188, (2021) |
Author Correction: Thermally and field-driven mobility of emergent magnetic charges in square artificial spin ice (Scientific Reports, (2019), 9, 1, (15989), 10.1038/s41598-019-52460-7)Morley S.A., Porro J.M., Hrabec A., Rosamond M.C., Venero D.A., Linfield E.H., Burnell G., Im M.-Y., Fischer P., Langridge S., Marrows C.H. Scientific Reports, 10, 1, 3328, (2020) |
Magnetic, magnetoelastic and corrosion resistant properties of (Fe-Ni)-based metallic glasses for structural health monitoring applicationsSagasti A., Palomares V., Porro J.M., Orúe I., Sánchez-Ilárduya M.B., Lopes A.C., Gutiérrez J. Materials, 13, 1, 57, (2020) |
Role of Fe addition in Ni–Mn–Ga–Co–Cu–Fe ferromagnetic shape memory alloys for high-temperature magnetic actuationPérez-Checa A., Porro J.M., Feuchtwanger J., Lázpita P., Hansen T.C., Mondelli C., Sozinov A., Barandiarán J.M., Ullakko K., Chernenko V. Acta Materialia, 196, 549, 555, (2020) |
Magnetization dynamics of weakly interacting sub-100 nm square artificial spin icesPorro J.M., Morley S.A., Venero D.A., Macêdo R., Rosamond M.C., Linfield E.H., Stamps R.L., Marrows C.H., Langridge S. Scientific Reports, 9, 1, 19967, (2019) |
Thermally and field-driven mobility of emergent magnetic charges in square artificial spin iceMorley S.A., Porro J.M., Hrabec A., Rosamond M.C., Venero D.A., Linfield E.H., Burnell G., Im M.-Y., Fischer P., Langridge S., Marrows C.H. Scientific Reports, 9, 1, 15989, (2019) |
Effect of FePd alloy composition on the dynamics of artificial spin iceMorley S.A., Riley S.T., Porro J.-M., Rosamond M.C., Linfield E.H., Cunningham J.E., Langridge S., Marrows C.H. Scientific Reports, 8, 1, 4750, (2018) |
Assessment of magnetoelastic resonance parameters retrieval for sensor applicationsSisniega B., Barandiaran J.M., Gutiérrez J., García-Arribas A. Journal of Magnetism and Magnetic Materials, 565, 170213, (2023) |
Influence of the geometry on the performance of GMI in meander configurationBeato-López J.J., Lete N., García-Arribas A., Gómez-Polo C. Sensors and Actuators A: Physical, 340, 113520, (2022) |
Magnetoelastic Resonance Detection of Calcium Oxalate Precipitation in Low Concentration SolutionsSisniega B., Gutierrez J., Garcia-Arribas A. IEEE Transactions on Magnetics, 58, 2, (2022) |
Disk-shaped magnetic particles for cancer therapyGoiriena-Goikoetxea M., Muñoz D., Orue I., Fernández-Gubieda M.L., Bokor J., Muela A., García-Arribas A. Applied Physics Reviews, 7, 1, 011306, (2020) |
Elucidating the role of shape anisotropy in faceted magnetic nanoparticles using biogenic magnetosomes as a modelGandia D., Gandarias L., Marcano L., Orue I., Gil-Cartón D., Alonso J., García-Arribas A., Muela A., Fdez-Gubieda M.L. Nanoscale, 12, 30, 16081, 16090, (2020) |
Half-hedgehog spin textures in sub-100 nm soft magnetic nanodotsBerganza E., Jaafar M., Fernandez-Roldan J.A., Goiriena-Goikoetxea M., Pablo-Navarro J., Garciá-Arribas A., Guslienko K., Magén C., De Teresa J.M., Chubykalo-Fesenko O., Asenjo A. Nanoscale, 12, 36, 18646, 18653, (2020) |
Improved determination of q quality factor and resonance frequency in sensors based on the magnetoelastic resonance through the fitting to analytical expressionsSisniega B., Gutiérrez J., Muto V., García-Arribas A. Materials, 13, 21, 4708, 1, 15, (2020) |
Magnetotactic bacteria for cancer therapyFdez-Gubieda M.L., Alonso J., García-Prieto A., García-Arribas A., Fernández Barquín L., Muela A. Journal of Applied Physics, 128, 7, 070902, (2020) |
Real time monitoring of calcium oxalate precipitation reaction by using corrosion resistant magnetoelastic resonance sensorsSisniega B., Sedano A.S., Gutiérrez J., García-Arribas A. Sensors (Switzerland), 20, 10, 2802, (2020) |
The performance of the magneto-impedance effect for the detection of superparamagnetic particlesGarcía-Arribas A. Sensors (Switzerland), 20, 7, 1961, (2020) |
Damping of magnetoelastic resonance for oil viscosity sensingBravo I., Arnaiz A., Garcia-Arribas A. IEEE Transactions on Magnetics, 55, 1, 8506476, (2019) |
Broadband ferromagnetic resonance measurements in thin-film structures for magnetoimpedance sensorsGonzález J.M., García-Arribas A., Shcherbinin S.V., Lepalovskij V.N., Collantes J.M., Kurlyandskaya G.V. Measurement: Journal of the International Measurement Confederation, 126, 215, 222, (2018) |
Configuration of the magnetosome chain: A natural magnetic nanoarchitectureOrue I., Marcano L., Bender P., García-Prieto A., Valencia S., Mawass M.A., Gil-Cartón D., Alba Venero D., Honecker D., García-Arribas A., Fernández Barquín L., Muela A., Fdez-Gubieda M.L. Nanoscale, 10, 16, 7407, 7419, (2018) |
Magnetic Nanoparticles, Synthesis, Properties, and ApplicationsAlonso J., Barandiarán J.M., Fernández Barquín L., García-Arribas A. Magnetic Nanostructured Materials: From Lab to Fab, 1, 40, (2018) |
Magnetic Study of Co-Doped Magnetosome ChainsMarcano L., Munoz D., Martín-Rodríguez R., Orue I., Alonso J., García-Prieto A., Serrano A., Valencia S., Abrudan R., Fernández Barquín L., García-Arribas A., Muela A., Fdez-Gubieda M.L. Journal of Physical Chemistry C, 122, 13, 7541, 7550, (2018) |
Magnetization reversal in circular vortex dots of small radiusGoiriena-Goikoetxea M., Guslienko K.Y., Rouco M., Orue I., Berganza E., Jaafar M., Asenjo A., Fernández-Gubieda M.L., Fernández Barquín L., García-Arribas A. Nanoscale, 9, 31, 11269, 11278, (2017) |
Magnetoimpedance in samples with patterned surfaces for the detection of ferrofluidsGarcía-Arribas A., Goiriena-Goikoetxea M., Fernández E., Barandiaran J. 2017 IEEE International Magnetics Conference, INTERMAG 2017, 8007789, (2017) |
Magnetoimpedance in Samples with Patterned Surfaces for the Detection of Magnetic Particles and FerrofluidsGarcia-Arribas A., Goiriena-Goikoetxea M., Fernandez E., Barandiaran J.M. IEEE Transactions on Magnetics, 53, 11, 7931619, (2017) |
Motor current signature analysis for gearbox condition monitoring under transient speeds using wavelet analysis and dual-level time synchronous averagingBravo-Imaz I., Davari Ardakani H., Liu Z., García-Arribas A., Arnaiz A., Lee J. Mechanical Systems and Signal Processing, 94, 73, 84, (2017) |
Surfactant-assisted production of TbCu2 nanoparticlesde la Fuente Rodríguez M., Espeso J.I., González J.A., Rodríguez Fernández J., Rojas D.P., Rodríguez Fernández L., Garcia-Arribas A., Fdez-Gubieda M.L., Echevarria-Bonet C., Périgo É.A., Michels A., Fernández Barquín L. Journal of Nanoparticle Research, 19, 7, 231, (2017) |
Thin-Film Magnetoimpedance Structures onto Flexible Substrates as Deformation SensorsGarcia-Arribas A., Combarro L., Goiriena-Goikoetxea M., Kurlyandskaya G.V., Svalov A.V., Fernandez E., Orue I., Feuchtwanger J. IEEE Transactions on Magnetics, 53, 4, 7745884, (2017) |
High-yield fabrication of 60 nm Permalloy nanodiscs in well-defined magnetic vortex state for biomedical applicationsGoiriena-Goikoetxea M., García-Arribas A., Rouco M., Svalov A.V., Barandiaran J.M. Nanotechnology, 27, 17, 175302, (2016) |
Comparative study of magnetic, microwave properties and giant magnetoimpedance of FeNi-based multilayers with different structureKurlyandskaya G.V., Fernández E., García-Arribas A., Lepalovsij V.N., Volchkov S.O. Journal of Alloys and Compounds, 615, S1, S296, S299, (2015) |
Equivalent Magnetic Noise of Micro-Patterned Multilayer Thin Films Based GMI MicrosensorFernández E., García-Arribas A., Barandiarán J.M., Svalov A.V., Kurlyandskaya G.V., Dolabdjian C.P. IEEE Sensors Journal, 15, 11, 7174467, 6707, 6714, (2015) |
Equivalent magnetic noise of thin film based giant magneto-impedance microsensorsFernández E., García-Arribas A., Barandiaran J.M., Svalov A.V., Kurlyandskaya G.V., Dolabdjian C. Proceedings of IEEE Sensors, 2014-December, December, 6985098, 710, 713, (2014) |
Sensor applications of soft magnetic materials based on magneto-impedance, magneto-elastic resonance and magneto-electricityGarcía-Arribas A., Gutiérrez J., Kurlyandskaya G.V., Barandiarán J.M., Svalov A., Fernández E., Lasheras A., de Cos D., Bravo-Imaz I. Sensors (Switzerland), 14, 5, 7602, 7624, (2014) |
Multifunctionality of weak ferromagnetic porphyrin-based MOFs: selective adsorption in the liquid and gas phaseAmayuelas E., Iacomi P., Fidalgo-Marijuan A., Bazán B., Urtiaga M.K., Barandika G., Lezama L., Llewellyn P.L., Arriortua M.I. CrystEngComm, 23, 23, 4205, 4213, (2021) |
Encapsulation of β-alanine model amino-acid in zirconium(IV) metal organic frameworks: Defect engineering to improve host guest interactionsMuguruza A.R., de Luis R.F., Iglesias N., Bazán B., Urtiaga M.-K., Larrea E.S., Fidalgo-Marijuan A., Barandika G. Journal of Inorganic Biochemistry, 205, 110977, (2020) |
Ionothermal synthesis of cadmium coordination polymers: Ionic liquid effects on the synthesis, structural, and thermal characterizationPerezF I., Larrea E.S., Bazán B., Barandika G., Urtiaga M.K., Arriortua M.I. Molecules, 24, 22, molecules24224059, (2019) |
Double role of metalloporphyrins in catalytic bioinspired supramolecular metal-organic frameworks (SMOFs)Fidalgo-Marijuan A., Amayuelas E., Barandika G., Larrea E.S., Bazán B., Urtiaga M.K., Iglesias M., Arriortua M.I. IUCrJ, 5, 559, 568, (2018) |
Aluminum alkali metalate derivatives: Factors driving the final nuclearity in the crystal formMuñoz M.T., Barandika G., Bazán B., Cuenca T., Mosquera M.E.G. European Journal of Inorganic Chemistry, 2017, 13, 1994, 2001, (2017) |
Cationic Mn2+/H+ exchange leading a slow solid-state transformation of a 2D porphyrinic network at ambient conditionsAmayuelas E., Fidalgo-Marijuan A., Bazán B., Urtiaga M.K., Barandika G., Lezama L., Arriortua M.I. Journal of Solid State Chemistry, 247, 161, 167, (2017) |
Highly thermally stable heterogeneous catalysts: Study of 0D and 3D porphyrinic MOFsAmayuelas E., Fidalgo-Marijuán A., Bazán B., Urtiaga M.K., Barandika G., Arriortua M.I. CrystEngComm, 19, 48, 7244, 7252, (2017) |
CuII-based metal-organic nanoballs for very rapid adsorption of dyes and iodineAmayuelas E., Fidalgo-Marijuán A., Bazán B., Urtiaga M.-K., Barandika G., Arriortua M.-I. CrystEngComm, 18, 10, 1709, 1712, (2016) |
Thermal and Magnetic Diversity in the Behaviour of the CuII-bdc-bpa System: 1D, 2D and Interpenetrated 3D FrameworksBravo-García L., Barandika G., Fidalgo-Marijuan A., Bazan B., Urtiaga M.K., Lezama L., Arriortua M.I. European Journal of Inorganic Chemistry, 2016, 29, 4783, 4791, (2016) |
Coordination and crystallization molecules: Their interactions affecting the dimensionality of metalloporphyrinic SCFsFidalgo-Marijuan A., Amayuelas E., Barandika G., Bazán B., Urtiaga M.K., Arriortua M.I. Molecules, 20, 4, 6683, 6699, (2015) |
Cu-PDC-bpa solid coordination frameworks (PDC=2,5-pyrindinedicarboxylate; bpa=1,2-DI(4-pyridil)ethane)): 2D and 3D structural flexibility producing a 3-c herringbone array next to idealLlano-Tomé F., Bazán B., Urtiaga M.-K., Barandika G., Antonia Señarís-Rodríguez M., Sánchez-Andújar M., Arriortua M.-I. Journal of Solid State Chemistry, 230, 18967, 191, 198, (2015) |
Heterogeneous catalytic properties of unprecedented μ-O-[FeTCPP]2 dimers (H2TCPP = meso-tetra(4-carboxyphenyl)porphyrin): An unusual superhyperfine EPR structureFidalgo-Marijuan A., Barandika G., Bazán B., Urtiaga M.K., Larrea E.S., Iglesias M., Lezama L., Arriortua M.I. Dalton Transactions, 44, 1, 213, 222, (2015) |
Mother structures related to the hexagonal and cubic close packing in Cu24 clusters: Solvent-influenced derivativesAmayuelas E., Fidalgo-Marijuan A., Barandika G., Bazán B., Urtiaga M.-K., Arriortua M.I. CrystEngComm, 17, 17, 3297, 3304, (2015) |
Thermal stability of ionic nets with CuII ions coordinated to di-2-pyridyl ketone: Reversible crystal-to-crystal phase transformationBravo-García L., Barandika G., Bazán B., Urtiaga M.K., Arriortua M.I. Polyhedron, 92, 117, 123, (2015) |
Water-induced phase transformation of a CuII coordination framework with pyridine-2,5-dicarboxylate and di-2-pyridyl ketone: synchrotron radiation analysisLlano-Tomé F., Bazán B., Urtiaga M.K., Barandika G., Fidalgo-Marijuan A., Fernández De Luis R., Arriortua M.I. CrystEngComm, 17, 33, 6346, 6354, (2015) |
CuII-PDC-bpe frameworks (PDC = 2,5-pyridinedicarboxylate, bpe = 1,2-di(4-pyridyl)ethylene): Mapping of herringbone-type structuresLlano-Tomé F., Bazán B., Urtiaga M.-K., Barandika G., Lezama L., Arriortua M.-I. CrystEngComm, 16, 37, 8726, 8735, (2014) |
Interests and expertise:
Polymers, nanotechnology, electrospinning and electrospraying, multifunctional materials synthesis and characterization.
Bio:
Bruno Hermenegildo was born in Angra do Heroísmo, in the portuguese archipelago of the Azores, and has a bachelor degree in Physics and a MSc. in Biophysics and Bionanosystems from Minho University in Portugal, where he worked in the development of active and biodegradable hydrogels for bone tissue engineering applications, and a PhD in Materials Science and Technology from the University of the Basque Country (UPV/EHU) in Spain, researching electro and magnetically active microenvironments for muscle tissue engineering, a work that was developped at BCMaterials together with the Macromolecular Chemistry Group (labquimac) of the UPV/EHU. He has presented his work in various conferences and published 10 scientific papers in various peer-reviewed journals.
Currently, as a post-doc researcher, his work will be focusing on the development and characterization of smart and active materials for biomedical applications
Recent work:
B. Hermenegildo, R. M. Meira, D. M. Correia, A.G. Díez, S. Ribeiro, J. P. Serra, C. Ribeiro, L. Pérez-Álvarez, José L. Vilas-Vilela, S. Lanceros-Méndez, Poly(lactic-co-glycolide) based biodegradable electrically and magnetically active microenvironments for tissue regeneration applications. European Polymer Journal, 2022. 171 p.111197
B. Hermenegildo, R. M. Meira, A.G. Díez, D. M. Correia, S. Ribeiro, J.P. Serra, C. Ribeiro, L. Pérez-Álvarez, José L. Vilas-Vilela, S. Lanceros-Méndez, Ionic liquid modified electroactive polymer-based microenvironments for tissue engineering. Polymer, 2022. 246 p.124731
B. Hermenegildo, D. M. Correia, C. Ribeiro, J.P. Serra, L. Pérez-Álvarez, José L. Vilas-Vilela, S. Lanceros-Méndez, Tuning magnetic response and ionic conductivity of electrospun hybrid membranes for tissue regeneration strategies. Polymers for Advanced Technologies, 2022.
B. Hermenegildo, C. Ribeiro, N. Peřinka, P. Martins, M. Trchová, M. Hajná, J. Stejskal, and S. Lanceros-Méndez, Electroactive poly(vinylidene fluoride) electrospun fiber mats coated with polyaniline and polypyrrole for tissue regeneration applications. Reactive and Functional Polymers, 2022. 170: p. 105118.
B. Hermenegildo, C. Ribeiro, L. Pérez-Álvarez, J.L. Vilas, D. A. Learmonth, R.A. Sousa, P. Martins, and S. Lanceros-Méndez, Hydrogel-based magnetoelectric microenvironments for tissue stimulation. Colloids and Surfaces B: Biointerfaces, 2019. 181: p. 1041-1047.
Electroactive functional microenvironments from bioactive polymers: A new strategy to address cancerRibeiro S., Soares M., Hermenegildo B., Correia V., Díez A.G., Lanceros-Mendez S., Ribeiro C. Biomaterials Advances, 137, 212849, (2022) |
Electroactive poly(vinylidene fluoride) electrospun fiber mats coated with polyaniline and polypyrrole for tissue regeneration applicationsHermenegildo B., Ribeiro C., Peřinka N., Martins P., Trchová M., Hajná M., Stejskal J., Lanceros-Méndez S. Reactive and Functional Polymers, 170, 105118, (2022) |
Ionic liquid modified electroactive polymer-based microenvironments for tissue engineeringHermenegildo B., Meira R.M., Díez A.G., Correia D.M., Ribeiro S., Serra J.P., Ribeiro C., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. Polymer, 246, 124731, (2022) |
Poly(lactic-co-glycolide) based biodegradable electrically and magnetically active microenvironments for tissue regeneration applicationsHermenegildo B., Meira R.M., Correia D.M., Díez A.G., Ribeiro S., Serra J.P., Ribeiro C., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. European Polymer Journal, 171, 111197, (2022) |
Tuning magnetic response and ionic conductivity of electrospun hybrid membranes for tissue regeneration strategiesHermenegildo B., Correia D.M., Ribeiro C., Serra J.P., Pérez L., Vilas-Vilela J.L., Lanceros-Méndez S. Polymers for Advanced Technologies, 33, 4, 1233, 1243, (2022) |
Ionic liquid-based materials for biomedical applicationsCorreia D.M., Fernandes L.C., Fernandes M.M., Hermenegildo B., Meira R.M., Ribeiro C., Ribeiro S., Reguera J., Lanceros-Méndez S. Nanomaterials, 11, 9, 2401, (2021) |
Hydrogel-based magnetoelectric microenvironments for tissue stimulationHermenegildo B., Ribeiro C., Pérez-Álvarez L., Vilas J.L., Learmonth D.A., Sousa R.A., Martins P., Lanceros-Méndez S. Colloids and Surfaces B: Biointerfaces, 181, 1041, 1047, (2019) |
3D printing of a palladium-alumina cermet monolithic catalyst: catalytic evaluation in microwave-assisted cross-coupling reactionsTubio C.R., Malatini C., Barrio V.L., Masaguer C.F., Amorín M., Nabgan W., Taboada P., Guitián F., Gil A., Coelho A. Materials Today Chemistry, 27, 101355, (2023) |
Acrylonitrile Butadiene Styrene-Based Composites with Permalloy with Tailored Magnetic ResponseMerazzo K.J., Díez A.G., Tubio C.R., Manchado J.C., Malet R., Pérez M., Costa P., Lanceros-Mendez S. Polymers, 15, 3, 626, (2023) |
Beeswax multifunctional composites with thermal-healing capability and recyclabilityBrito-Pereira R., Ribeiro C., Tubio C.R., Castro N., Costa P., Lanceros-Mendez S. Chemical Engineering Journal, 453, 139840, (2023) |
Influence of polymer matrix on the luminescence of phosphor based printable electroluminescent materials and devicesPolícia R., Correia D.M., Peřinka N., Tubio C.R., Lanceros-Méndez S. Polymer, 268, 125700, (2023) |
3D-printed carrageenan-based nanocomposites for sustainable resistive sensing devicesMacedo V.M., Pereira N., Tubio C.R., Martins P., Lanceros-Mendez S., Costa C.M. Polymer, 262, 125456, (2022) |
Carrageenan based printable magnetic nanocomposites for actuator applicationsMacedo V.M., Pereira N., Tubio C.R., Martins P., Costa C.M., Lanceros-Mendez S. Composites Science and Technology, 224, 109485, (2022) |
Carrageenan-Based Hybrid Materials with Ionic Liquids for Sustainable and Recyclable Printable Pressure SensorsSerra J.P., Pereira N., Correia D.M., Tubio C.R., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. ACS Sustainable Chemistry and Engineering, 10, 26, 8631, 8640, (2022) |
Electrospun Magnetic Ionic Liquid Based Electroactive Materials for Tissue Engineering ApplicationsFernandes L.C., Meira R.M., Correia D.M., Ribeiro C., Fernandez E., Tubio C.R., Lanceros-Méndez S. Nanomaterials, 12, 17, 3072, (2022) |
Environmentally friendly carrageenan-based ionic-liquid driven soft actuatorsSerra J.P., Fernandes L.C., Correia D.M., Tubio C.R., Vilas-Vilela J.L., Tariq M., Esperança J.M.S.S., Costa C.M., Lanceros-Mendez S. Materials Advances, 3, 2, 937, 945, (2022) |
Fiber-Reinforced Polyester Composites with Photoluminescence Sensing Capabilities for UV Degradation MonitoringTubio C.R., Seoane-Rivero R., Neira S., Benito V., Zubieta K.G., Lanceros-Mendez S. Polymers, 14, 17, 3666, (2022) |
Ionic-triggered magnetoelectric coupling for magnetic sensing applicationsFernandes L.C., Correia D.M., Pereira N., Ribeiro C., Tubio C.R., Martins P., Lanceros-Mendez S. Applied Materials Today, 29, 101590, (2022) |
Multifunctional Ternary Composites with Silver Nanowires and Titanium Dioxide Nanoparticles for Capacitive Sensing and Photocatalytic Self-Cleaning ApplicationsTubio C.R., Pereira N., Campos-Arias L., Martins P.M., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. ACS Applied Electronic Materials, 4, 8, 3815, 3824, (2022) |
Piezoelectric biodegradable poly(3-hydroxybutyrate-co-3-hydroxyvalerate) based electrospun fiber mats with tailored porosityMarques-Almeida T., Fernandes L.C., Correia D.M., Tubio C.R., Lanceros-Mendez S., Ribeiro C. Polymers for Advanced Technologies, 33, 4, 1092, 1099, (2022) |
Self-sensing fluorescence polymer composites for chemical degradation protection and monitoringTubio C.R., Seoane-Rivero R., Garcia A., Gallardo A., Salaverria L.D., Amondarian A.L.A., Zubieta K.G., Lanceros-Mendez S. Progress in Organic Coatings, 168, 106879, (2022) |
Structural organization of ionic liquids embedded in fluorinated polymersPetrenko V.I., Fernandes L.C., Ivankov O.I., Tubio C.R., Tariq M., Esperança J.M.S.S., Correia D.M., Lanceros-Mendez S. Journal of Molecular Liquids, 360, 119385, (2022) |
Tuning magnetorheological functional response of thermoplastic elastomers by varying soft-magnetic nanofillersDíez A.G., Tubio C.R., Gómez A., Berastegi J., Bou-Ali M.M., Etxebarria J.G., Lanceros-Mendez S. Polymers for Advanced Technologies, 33, 8, 2610, 2619, (2022) |
A Facile Nanoimpregnation Method for Preparing Paper-Based Sensors and ActuatorsBrito-Pereira R., Tubio C.R., Lanceros-Mendez S., Martins P. Advanced Materials Technologies, 6, 9, 2100476, (2021) |
Comparative Assessment of Ionic Liquid-Based Soft Actuators Prepared by Film Casting Versus Direct Ink WritingCorreia D.M., Barbosa J.C., Serra J.P., Pinto R.S., Fernandes L.C., Tubio C.R., Lanceros-Mendez S., Costa C.M. Advanced Engineering Materials, 23, 10, 2100411, (2021) |
Fluorinated Polymer Membranes as Advanced Substrates for Portable Analytical Systems and Their Proof of Concept for Colorimetric BioassaysBrito-Pereira R., Macedo A.S., Tubio C.R., Lanceros-Méndez S., Cardoso V.F. ACS Applied Materials and Interfaces, 13, 15, 18065, 18076, (2021) |
High dielectric constant poly(vinylidene fluoride-trifluoroethylene-chlorofluoroethylene) for capacitive pressure and bending sensorsPereira N., Gonçalves S., Barbosa J.C., Gonçalves R., Tubio C.R., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. Polymer, 214, 123349, (2021) |
High-dielectric mouldable and printable wax reinforced with ceramic nanofillers and its suitability for capacitive sensingBrito-Pereira R., Rodrigues-Marinho T., Tubio C.R., Costa P., Lanceros-Mendez S. Flexible and Printed Electronics, 6, 3, 035005, (2021) |
Highly sensitive transparent piezoionic materials and their applicability as printable pressure sensorsFernandes L.C., Correia D.M., Pereira N., Tubio C.R., Lanceros-Méndez S. Composites Science and Technology, 214, 108976, (2021) |
Magnetorheological Elastomer-Based Materials and Devices: State of the Art and Future PerspectivesDíez A.G., Tubio C.R., Etxebarria J.G., Lanceros-Mendez S. Advanced Engineering Materials, 23, 6, 2100240, (2021) |
Multifunctional wax based conductive and piezoresistive nanocomposites for sensing applicationsBrito-Pereira R., Tubio C.R., Costa P., Lanceros-Mendez S. Composites Science and Technology, 213, 108892, (2021) |
Polycarbonate based multifunctional self-sensing 2D and 3D printed structures for aeronautic applicationsCosta P., Dios J.R., Cardoso J., Campo J.J., Tubio C.R., Gon alves B.F., Castro N., Lanceros-Méndez S. Smart Materials and Structures, 30, 8, 085032, (2021) |
Antimicrobial and Antibiofilm Properties of Fluorinated Polymers with Embedded Functionalized NanodiamondsNunes-Pereira J., Costa P., Fernandes L., Carvalho E.O., Fernandes M.M., Carabineiro S.A.C., Buijnsters J.G., Tubio C.R., Lanceros-Mendez S. ACS Applied Polymer Materials, 2, 11, 5014, 5024, (2020) |
Functional Piezoresistive Polymer-Composites Based on Polycarbonate and Polylactic Acid for Deformation Sensing ApplicationsDios J.R., Gonzalo B., Tubio C.R., Cardoso J., Gonçalves S., Miranda D., Correia V., Viana J.C., Costa P., Lanceros-Méndez S. Macromolecular Materials and Engineering, 305, 12, 2000379, (2020) |
High deformation multifunctional composites: Materials, processes, and applicationsCosta P., Nunes-Pereira J., Tubio C.R., Dios J.R., Lanceros-Mendez S. Advanced Lightweight Multifunctional Materials, 317, 350, (2020) |
Integrating Reactors and Catalysts through Three-Dimensional Printing: Efficiency and Reusability of an Impregnated Palladium on Silica Monolith in Sonogashira and Suzuki ReactionsDíaz-Marta A.S., Yañez S., Lasorsa E., Pacheco P., Tubío C.R., Rivas J., Piñeiro Y., Gómez M.A.G., Amorín M., Guitián F., Coelho A. ChemCatChem, 12, 6, 1762, 1771, (2020) |
Magnetic and high-dielectric-constant nanoparticle polymer tri-composites for sensor applicationsMooti A., Costa C.M., Maceiras A., Pereira N., Tubio C.R., Vilas J.L., Besbes-Hentati S., Lanceros-Mendez S. Journal of Materials Science, 55, 34, 16234, 16246, (2020) |
Magnetically Activated Electroactive Microenvironments for Skeletal Muscle Tissue RegenerationRibeiro S., Ribeiro C., Carvalho E.O., Tubio C.R., Castro N., Pereira N., Correia V., Gomes A.C., Lanceros-Méndez S. ACS Applied Bio Materials, 3, 7, 4239, 4252, (2020) |
Silica nanoparticles surface charge modulation of the electroactive phase content and physical-chemical properties of poly(vinylidene fluoride) nanocompositesRibeiro S., Meira R.M., Correia D.M., Tubio C.R., Ribeiro C., Baleizão C., Lanceros-Méndez S. Composites Part B: Engineering, 185, 107786, (2020) |
Tailoring electroactive poly(vinylidene fluoride‐co-trifluoroethylene) microspheres by a nanoprecipitation methodMacedo A.S., Carvalho E.O., Cardoso V.F., Correia D.M., Tubio C.R., Fidalgo-Marijuan A., Botelho G., Lanceros-Méndez S. Materials Letters, 261, 127018, (2020) |
Water-Based Graphene Inks for All-Printed Temperature and Deformation SensorsFranco M., Alves R., Perinka N., Tubio C., Costa P., Lanceros-Mendéz S. ACS Applied Electronic Materials, 2, 9, 2857, 2867, (2020) |
Highly Sensitive Humidity Sensor Based on Ionic Liquid-Polymer CompositesFernandes L.C., Correia D.M., Pereira N., Tubio C.R., Lanceros-Méndez S. ACS Applied Polymer Materials, 1, 10, 2723, 2730, (2019) |
Multicatalysis Combining 3D-Printed Devices and Magnetic Nanoparticles in One-Pot Reactions: Steps Forward in Compartmentation and Recyclability of CatalystsSanchez Díaz-Marta A., Yáñez S., Tubío C.R., Barrio V.L., Piñeiro Y., Pedrido R., Rivas J., Amorín M., Guitián F., Coelho A. ACS Applied Materials and Interfaces, 11, 28, 25283, 25294, (2019) |
Daily accounting, purchasing of scientific supplies & contact with related vendors
Currently I am in charge of the purchases (flights, conferences, chemical supplies, etc) and projects expenses
Electrospun Magnetic Ionic Liquid Based Electroactive Materials for Tissue Engineering ApplicationsFernandes L.C., Meira R.M., Correia D.M., Ribeiro C., Fernandez E., Tubio C.R., Lanceros-Méndez S. Nanomaterials, 12, 17, 3072, (2022) |
Printed Capacitive Sensors Based on Ionic Liquid/Metal-Organic Framework Composites for Volatile Organic Compounds DetectionFernandez E., G. Saiz P., Peřinka N., Wuttke S., Fernández de Luis R. Advanced Functional Materials, 31, 25, 2010703, (2021) |
Smartphone-enabled personalized diagnostics: Current status and future prospectsMerazzo K.J., Totoricaguena-Gorriño J., Fernández-Martín E., Javier Del Campo F., Baldrich E. Diagnostics, 11, 6, 1067, (2021) |
Design of Ionic-Liquid-Based Hybrid Polymer Materials with a Magnetoactive and Electroactive Multifunctional ResponseFernandes L.C., Correia D.M., Fernández E., Tariq M., Esperança J.M.S.S., Lanceros-Méndez S. ACS Applied Materials and Interfaces, 12, 37, 42089, 42098, (2020) |
Magnetic Field Perturbations by Thermoelectric EffectsFerreira N.J., Antunes P.J., Viana J.C., Fernandes L.C., Fernandez E., Lanceros-Mendez S. Proceedings of 2019 ESA Workshop on Aerospace EMC, Aerospace EMC 2019, 8788964, (2019) |
Magnetic reversal and thermal stability of CoFeB perpendicular magnetic tunnel junction arrays patterned by block copolymer lithographyTu K.-H., Fernandez E., Almasi H., Wang W., Otero D.N., Ntetsikas K., Moschovas D., Avgeropoulos A., Ross C.A. Nanotechnology, 29, 27, 275302, (2018) |
Thermal stability of L10-FePt nanodots patterned by self-assembled block copolymer lithographyFernandez E., Tu K.-H., Ho P., Ross C.A. Nanotechnology, 29, 46, 465301, (2018) |
Magnetoimpedance in samples with patterned surfaces for the detection of ferrofluidsGarcía-Arribas A., Goiriena-Goikoetxea M., Fernández E., Barandiaran J. 2017 IEEE International Magnetics Conference, INTERMAG 2017, 8007789, (2017) |
Magnetoimpedance in Samples with Patterned Surfaces for the Detection of Magnetic Particles and FerrofluidsGarcia-Arribas A., Goiriena-Goikoetxea M., Fernandez E., Barandiaran J.M. IEEE Transactions on Magnetics, 53, 11, 7931619, (2017) |
Thin-Film Magnetoimpedance Structures onto Flexible Substrates as Deformation SensorsGarcia-Arribas A., Combarro L., Goiriena-Goikoetxea M., Kurlyandskaya G.V., Svalov A.V., Fernandez E., Orue I., Feuchtwanger J. IEEE Transactions on Magnetics, 53, 4, 7745884, (2017) |
Cu-coated cellulose nanopaper for green and low-cost electronicsLizundia E., Delgado-Aguilar M., Mutjé P., Fernández E., Robles-Hernandez B., de la Fuente M.R., Vilas J.L., León L.M. Cellulose, 23, 3, 1997, 2010, (2016) |
Comparative study of magnetic, microwave properties and giant magnetoimpedance of FeNi-based multilayers with different structureKurlyandskaya G.V., Fernández E., García-Arribas A., Lepalovsij V.N., Volchkov S.O. Journal of Alloys and Compounds, 615, S1, S296, S299, (2015) |
Equivalent Magnetic Noise of Micro-Patterned Multilayer Thin Films Based GMI MicrosensorFernández E., García-Arribas A., Barandiarán J.M., Svalov A.V., Kurlyandskaya G.V., Dolabdjian C.P. IEEE Sensors Journal, 15, 11, 7174467, 6707, 6714, (2015) |
Equivalent magnetic noise of thin film based giant magneto-impedance microsensorsFernández E., García-Arribas A., Barandiaran J.M., Svalov A.V., Kurlyandskaya G.V., Dolabdjian C. Proceedings of IEEE Sensors, 2014-December, December, 6985098, 710, 713, (2014) |
Sensor applications of soft magnetic materials based on magneto-impedance, magneto-elastic resonance and magneto-electricityGarcía-Arribas A., Gutiérrez J., Kurlyandskaya G.V., Barandiarán J.M., Svalov A., Fernández E., Lasheras A., de Cos D., Bravo-Imaz I. Sensors (Switzerland), 14, 5, 7602, 7624, (2014) |
Polymer synthesis and processing technologies: hydrothermal and microwave-assisted reactions, ring opening polymerization, extrusion, injection, melt compounding…
Renewable (nano)materials, specially cellulose, chitin, chitosan, lignin.
Thermal characterization (DSC, TGA), mechanical characterization (tensile testing, DMA), optical characterization (UV-Vis, photoluminescence, CD spectroscopy). ç
Structural determination: X-ray diffraction, FTIR, XPS, SEM, TEM, AFM.
Electrochemistry and battery applications.
His work aims to develop environmentally sustainable materials and technologies based on renewable materials using green chemistry, biomimetic, bioeconomy, and circular economy approaches. Erlantz devotes part of his work to sustainable batteries based on biopolymers. Erlantz also works on the ecodesign of batteries and their recycling, polymer upcycling, or biopolymer valorization through life cycle assessment (LCA).
Bottom-Up Design of a Green and Transient Zinc-Ion Battery with Ultralong LifespanMittal N., Ojanguren A., Kundu D., Lizundia E., Niederberger M. Small (In Press) |
Lignin-Chitosan Gel Polymer Electrolytes for Stable Zn ElectrodepositionAlmenara N., Gueret R., Huertas-Alonso A.J., Veettil U.T., Sipponen M.H., Lizundia E. ACS Sustainable Chemistry and Engineering (In Press) |
3D printing to enable the reuse of marine plastic waste with reduced environmental impactsCañado N., Lizundia E., Akizu-Gardoki O., Minguez R., Lekube B., Arrillaga A., Iturrondobeitia M. Journal of Industrial Ecology, 26, 6, 2092, 2107, (2022) |
Advances, challenges, and environmental impacts in metal–air battery electrolytesSalado M., Lizundia E. Materials Today Energy, 28, 101064, (2022) |
Core-Shell Fe3O4@Au Nanorod-Loaded Gels for Tunable and Anisotropic Magneto- and PhotothermiaRincón-Iglesias M., Rodrigo I., Berganza L.B., Serea E.S.A., Plazaola F., Lanceros-Méndez S., Lizundia E., Reguera J. ACS Applied Materials and Interfaces, 14, 5, 7130, 7140, (2022) |
Ecodesign coupled with Life Cycle Assessment to reduce the environmental impacts of an industrial enzymatic cleanerde Lapuente Díaz de Otazu R.L., Akizu-Gardoki O., de Ulibarri B., Iturrondobeitia M., Minguez R., Lizundia E. Sustainable Production and Consumption, 29, 718, 729, (2022) |
Environmental Impact Assessment of Chitin Nanofibril and Nanocrystal Isolation from Fungi, Shrimp Shells, and Crab ShellsBerroci M., Vallejo C., Lizundia E. ACS Sustainable Chemistry and Engineering, 10, 43, 14280, 14293, (2022) |
Environmental Impact Assessment of LiNi1/3Mn1/3Co1/3O2Hydrometallurgical Cathode Recycling from Spent Lithium-Ion BatteriesIturrondobeitia M., Vallejo C., Berroci M., Akizu-Gardoki O., Minguez R., Lizundia E. ACS Sustainable Chemistry and Engineering, 10, 30, 9798, 9810, (2022) |
Environmental Impacts of Aqueous Zinc Ion Batteries Based on Life Cycle AssessmentIturrondobeitia M., Akizu-Gardoki O., Amondarain O., Minguez R., Lizundia E. Advanced Sustainable Systems, 6, 1, 2100308, (2022) |
Hierarchical Nanocellulose-Based Gel Polymer Electrolytes for Stable Na Electrodeposition in Sodium Ion BatteriesMittal N., Tien S., Lizundia E., Niederberger M. Small, 18, 43, 2107183, (2022) |
Magnetically active nanocomposites based on biodegradable polylactide, polycaprolactone, polybutylene succinate and polybutylene adipate terephthalateRincón-Iglesias M., Salado M., Lanceros-Mendez S., Lizundia E. Polymer, 249, 124804, (2022) |
Multicomponent magnetic nanoparticle engineering: the role of structure-property relationship in advanced applicationsDíez A.G., Rincón-Iglesias M., Lanceros-Méndez S., Reguera J., Lizundia E. Materials Today Chemistry, 26, 101220, (2022) |
Optimum operational lifespan of household appliances considering manufacturing and use stage improvements via life cycle assessmentAlejandre C., Akizu-Gardoki O., Lizundia E. Sustainable Production and Consumption, 32, 52, 65, (2022) |
Organic waste valorisation towards circular and sustainable biocompositesLizundia E., Luzi F., Puglia D. Green Chemistry, 24, 14, 5429, 5459, (2022) |
The Role of Critical Raw Materials for Novel Strategies in Sustainable Secondary BatteriesSalado M., Lizundia E., Oyarzabal I., Salazar D. Physica Status Solidi (A) Applications and Materials Science, 219, 15, 2100710, (2022) |
Upcycling discarded cellulosic surgical masks into catalytically active freestanding materialsReguera J., Zheng F., Shalan A.E., Lizundia E. Cellulose, 29, 4, 2223, 2240, (2022) |
Advances in Natural Biopolymer-Based Electrolytes and Separators for Battery ApplicationsLizundia E., Kundu D. Advanced Functional Materials, 31, 3, 2005646, (2021) |
Biomimetic photonic materials derived from chitin and chitosanLizundia E., Nguyen T.-D., Winnick R.J., MacLachlan M.J. Journal of Materials Chemistry C, 9, 3, 796, 817, (2021) |
Biomimetic Wood-Inspired Batteries: Fabrication, Electrochemical Performance, and Sustainability within a Circular PerspectiveGomez I., Lizundia E. Advanced Sustainable Systems, 5, 12, 2100236, (2021) |
Chiral nematic cellulose nanocrystal/Germania and Carbon/Germania composite aerogels as supercapacitor materialsWalters C.M., Matharu G.K., Hamad W.Y., Lizundia E., MacLachlan M.J. Chemistry of Materials, 33, 13, 5197, 5209, (2021) |
Comparative life cycle assessment of high performance lithium-sulfur battery cathodesLopez S., Akizu-Gardoki O., Lizundia E. Journal of Cleaner Production, 282, 124528, (2021) |
Degradation Behavior, Biocompatibility, Electrochemical Performance, and Circularity Potential of Transient BatteriesMittal N., Ojanguren A., Niederberger M., Lizundia E. Advanced Science, 8, 12, 2004814, (2021) |
Effect of metal-oxide nanoparticle presence and alginate cross-linking on cellulose nanocrystal-based aerogelsGoikuria U., Larrañaga A., Lizundia E., Vilas J.L. Journal of Applied Polymer Science, 138, 27, 50639, (2021) |
Environmental Impact Analysis of Aprotic Li-O2Batteries Based on Life Cycle AssessmentIturrondobeitia M., Akizu-Gardoki O., Minguez R., Lizundia E. ACS Sustainable Chemistry and Engineering, 9, 20, 7139, 7153, (2021) |
Erratum to “Free-standing intrinsically conducting polymer membranes based on cellulose and poly(vinylidene fluoride) for energy storage applications” [Eur. Polym. J. 144 (2021) 110240] (European Polymer Journal (2021) 144, (S0014305720319571), (10.1016/j.eurpolymj.2020.110240))Salado M., Lanceros-Mendez S., Lizundia E. European Polymer Journal, 146, 110290, (2021) |
Free-standing intrinsically conducting polymer membranes based on cellulose and poly(vinylidene fluoride) for energy storage applicationsSalado M., Lanceros-Mendez S., Lizundia E. European Polymer Journal, 144, 110240, (2021) |
Influence of cellulose nanocrystal surface functionalization on the bending response of cellulose nanocrystal/ionic liquid soft actuatorsCorreia D.M., Lizundia E., Fernandes L.C., Costa C.M., Lanceros-Méndez S. Physical Chemistry Chemical Physics, 23, 11, 6710, 6716, (2021) |
Multifunctional lignin-based nanocomposites and nanohybridsLizundia E., Sipponen M.H., Greca L.G., Balakshin M., Tardy B.L., Rojas O.J., Puglia D. Green Chemistry, 23, 18, 6698, 6760, (2021) |
Stable Na Electrodeposition Enabled by Agarose-Based Water-Soluble Sodium Ion Battery SeparatorsOjanguren A., Mittal N., Lizundia E., Niederberger M. ACS Applied Materials and Interfaces, 13, 18, 21250, 21260, (2021) |
Transient Rechargeable Battery with a High Lithium Transport Number Cellulosic SeparatorMittal N., Ojanguren A., Cavasin N., Lizundia E., Niederberger M. Advanced Functional Materials, 31, 33, 2101827, (2021) |
WHAT DO 1ST YEAR ENGINEERING STUDENTS REALLY LEARN?Sierra-Uria E., Lizundia E., Barrenetxea L. Dyna (Spain), 96, 6, (2021) |
A Sodium-Ion Battery Separator with Reversible Voltage Response Based on Water-Soluble Cellulose DerivativesCasas X., Niederberger M., Lizundia E. ACS Applied Materials and Interfaces, 12, 26, 29264, 29274, (2020) |
Biomimetic Mesoporous Cobalt Ferrite/Carbon Nanoflake Helices for Freestanding Lithium-Ion Battery AnodesThi Thanh Dang N., Nguyen T.-D., Lizundia E., Quoc Le T., MacLachlan M.J. ChemistrySelect, 5, 27, 8207, 8217, (2020) |
Cellulose and its derivatives for lithium ion battery separators: A review on the processing methods and propertiesLizundia E., Costa C.M., Alves R., Lanceros-Méndez S. Carbohydrate Polymer Technologies and Applications, 1, 100001, (2020) |
Cellulose nanocrystal and water-soluble cellulose derivative based electromechanical bending actuatorsCorreia D.M., Lizundia E., Meira R.M., Rincón-Iglesias M., Lanceros-Méndez S. Materials, 13, 10, 2294, (2020) |
Cellulose nanocrystal based multifunctional nanohybridsLizundia E., Puglia D., Nguyen T.-D., Armentano I. Progress in Materials Science, 112, 100668, (2020) |
Combining cobalt ferrite and graphite with cellulose nanocrystals for magnetically active and electrically conducting mesoporous nanohybridsLizundia E., Rincón-Iglesias M., Lanceros-Méndez S. Carbohydrate Polymers, 236, 116001, (2020) |
Effect of SWCNT Content and Water Vapor Adsorption on the Electrical Properties of Cellulose Nanocrystal-Based NanohybridsDehesa A.A., Luzi F., Puglia D., Lizundia E., Armentano I., Torre L. Journal of Physical Chemistry C, 124, 27, 14901, 14910, (2020) |
Electroactive γ-phase, enhanced thermal and mechanical properties and high ionic conductivity response of poly (vinylidene fluoride)/cellulose nanocrystal hybrid nanocompositesLizundia E., Reizabal A., Costa C.M., Maceiras A., Lanceros-Méndez S. Materials, 13, 3, 743, (2020) |
Luminescent carbon dots obtained from polymeric wasteLauria A., Lizundia E. Journal of Cleaner Production, 262, 121288, (2020) |
Polymers for advanced lithium-ion batteries: State of the art and future needs on polymers for the different battery componentsCosta C.M., Lizundia E., Lanceros-Méndez S. Progress in Energy and Combustion Science, 79, 100846, (2020) |
Synergic Effect of Nanolignin and Metal Oxide Nanoparticles into Poly(l-lactide) Bionanocomposites: Material Properties, Antioxidant Activity, and Antibacterial PerformanceLizundia E., Armentano I., Luzi F., Bertoglio F., Restivo E., Visai L., Torre L., Puglia D. ACS Applied Bio Materials, 3, 8, 5263, 5274, (2020) |
Tailoring Electrical and Mechanical Properties of All-Natural Polymer Composites for Environmentally Friendlier ElectronicsRincón-Iglesias M., Lizundia E., Costa C.M., Lanceros-Méndez S. ACS Applied Polymer Materials, 2, 4, 1448, 1457, (2020) |
The role of CNC surface modification on the structural, thermal and electrical properties of poly(vinylidene fluoride) nanocompositesRincón-Iglesias M., Lizundia E., Correia D.M., Costa C.M., Lanceros-Méndez S. Cellulose, 27, 7, 3821, 3834, (2020) |
Water-based 2D printing of magnetically active cellulose derivative nanocompositesRincón-Iglesias M., Delgado A., Peřinka N., Lizundia E., Lanceros-Méndez S. Carbohydrate Polymers, 233, 115855, (2020) |
A new method to measure the accuracy of intraoral scanners along the complete dental arch: A pilot studyIturrate M., Lizundia E., Amezua X., Solaberrieta E. Journal of Advanced Prosthodontics, 11, 6, 331, 340, (2019) |
A review on the thermomechanical properties and biodegradation behaviour of polyestersLarrañaga A., Lizundia E. European Polymer Journal, 121, 109296, (2019) |
A simple approach to understand the physical aging in polymersMinguez R., Barrenetxea L., Solaberrieta E., Lizundia E. European Journal of Physics, 40, 1, 015502, (2019) |
An Organic Cathode Based Dual-Ion Aqueous Zinc Battery Enabled by a Cellulose MembraneGlatz H., Lizundia E., Pacifico F., Kundu D. ACS Applied Energy Materials, 2, 2, 1288, 1294, (2019) |
Black Titania with Nanoscale HelicityNguyen T.-D., Li J., Lizundia E., Niederberger M., Hamad W.Y., MacLachlan M.J. Advanced Functional Materials, 29, 40, 1904639, (2019) |
Ceramic nanoparticles and carbon nanotubes reinforced thermoplastic materials for piezocapacitive sensing applicationsMarinho T., Costa P., Lizundia E., Costa C.M., Corona-Galván S., Lanceros-Méndez S. Composites Science and Technology, 183, 107804, (2019) |
Effect of template type on the preparation of the emeraldine salt form of polyaniline (PANI-ES) with horseradish peroxidase isoenzyme C (HRPC) and hydrogen peroxideFujisaki T., Kashima K., Serrano-Luginbühl S., Kissner R., Bajuk-Bogdanović D., Milojević-Rakić M., Ćirić-Marjanović G., Busato S., Lizundia E., Walde P. RSC Advances, 9, 57, 33080, 33095, (2019) |
Electroless plating of platinum nanoparticles onto mesoporous cellulose films for catalytically active free-standing materialsLizundia E., Jimenez M., Altorfer C., Niederberger M., Caseri W. Cellulose, 26, 9, 5513, 5527, (2019) |
Hydrolysis of poly(l-lactide)/ZnO nanocomposites with antimicrobial activityPérez-Álvarez L., Lizundia E., Ruiz-Rubio L., Benito V., Moreno I., Vilas-Vilela J.L. Journal of Applied Polymer Science, 136, 28, 47786, (2019) |
Impact of ZnO nanoparticle morphology on relaxation and transport properties of PLA nanocompositesLizundia E., Penayo M.C., Guinault A., Vilas J.L., Domenek S. Polymer Testing, 75, 175, 184, (2019) |
Influence of Cation and Anion Type on the Formation of the Electroactive β-Phase and Thermal and Dynamic Mechanical Properties of Poly(vinylidene fluoride)/Ionic Liquids BlendsCorreia D.M., Costa C.M., Lizundia E., Sabater I Serra R., Gómez-Tejedor J.A., Biosca L.T., Meseguer-Dueñas J.M., Gomez Ribelles J.L., Lanceros-Méndez S. Journal of Physical Chemistry C, (2019) |
Kinetic, thermal, structural and degradation studies on the effect of meta-substituted aromatic-aliphatic polyesters built through ring-opening polymerisationMakwana V.A., Larrañaga A., Vilas J.L., Lizundia E. Polymer Degradation and Stability, 169, 108984, (2019) |
Mesoporous Cellulose Nanocrystal Membranes as Battery Separators for Environmentally Safer Lithium-Ion BatteriesGoncąlves R., Lizundia E., Silva M.M., Costa C.M., Lanceros-Méndez S. ACS Applied Energy Materials, 2, 5, 3749, 3761, (2019) |
Self-Assembly Route to TiO2 and TiC with a Liquid Crystalline OrderNguyen T.-D., Lizundia E., Niederberger M., Hamad W.Y., Maclachlan M.J. Chemistry of Materials, 31, 6, 2174, 2181, (2019) |
Water-Soluble Cellulose Derivatives as Suitable Matrices for Multifunctional MaterialsRincón-Iglesias M., Lizundia E., Lanceros-Méndez S. Biomacromolecules, 20, 7, 2786, 2795, (2019) |
Iridescent cellulose nanocrystal films: The link between structural colour and Bragg's lawNguyen T.-D., Sierra E., Eguiraun H., Lizundia E. European Journal of Physics, 39, 4, 045803, (2018) |
Metal Nanoparticles Embedded in Cellulose Nanocrystal Based Films: Material Properties and Post-use AnalysisLizundia E., Goikuria U., Vilas J.L., Cristofaro F., Bruni G., Fortunati E., Armentano I., Visai L., Torre L. Biomacromolecules, 19, 7, 2618, 2628, (2018) |
Teflon tape for laboratory teaching of three-dimensional x-ray crystallographyLarrañaga A., Goikoetxea N., Iturrate M., Lizundia E. European Journal of Physics, 39, 5, 055502, (2018) |
Thermal, optical and structural properties of blocks and blends of PLA and P2HEBMakwana V.A., Lizundia E., Larrañaga A., Vilas J.L., Shaver M.P. Green Materials, 6, 3, 85, 96, (2018) |
Titania-Cellulose Hybrid Monolith for In-Flow Purification of Water under Solar IlluminationLucchini M.A., Lizundia E., Moser S., Niederberger M., Nyström G. ACS Applied Materials and Interfaces, 10, 35, 29599, 29607, (2018) |
Free-volume effects on the thermomechanical performance of epoxy–SiO2 nanocompositesLizundia E., Serna I., Axpe E., Vilas J.L. Journal of Applied Polymer Science, 134, 34, 45216, (2017) |
Light and gas barrier properties of PLLA/metallic nanoparticles composite filmsLizundia E., Vilas J.L., Sangroniz A., Etxeberria A. European Polymer Journal, 91, 10, 20, (2017) |
Magnetic cellulose nanocrystal nanocomposites for the development of green functional materialsLizundia E., Maceiras A., Vilas J.L., Martins P., Lanceros-Mendez S. Carbohydrate Polymers, 175, 425, 432, (2017) |
Thermal stability increase in metallic nanoparticles-loaded cellulose nanocrystal nanocompositesGoikuria U., Larrañaga A., Vilas J.L., Lizundia E. Carbohydrate Polymers, 171, 193, 201, (2017) |
Thermal, structural and degradation properties of an aromatic-aliphatic polyester built through ring-opening polymerisationLizundia E., Makwana V.A., Larrañaga A., Vilas J.L., Shaver M.P. Polymer Chemistry, 8, 22, 3530, 3538, (2017) |
Construction of antibacterial poly(ethylene terephthalate) films via layer by layer assembly of chitosan and hyaluronic acidDel Hoyo-Gallego S., Pérez-Álvarez L., Gómez-Galván F., Lizundia E., Kuritka I., Sedlarik V., Laza J.M., Vila-Vilela J.L. Carbohydrate Polymers, 143, 35, 43, (2016) |
Cu-coated cellulose nanopaper for green and low-cost electronicsLizundia E., Delgado-Aguilar M., Mutjé P., Fernández E., Robles-Hernandez B., de la Fuente M.R., Vilas J.L., León L.M. Cellulose, 23, 3, 1997, 2010, (2016) |
Grafting of Cellulose NanocrystalsLizundia E., Meaurio E., Vilas J.L. Multifunctional Polymeric Nanocomposites Based on Cellulosic Reinforcements, 61, 113, (2016) |
Increased functional properties and thermal stability of flexible cellulose nanocrystal/ZnO filmsLizundia E., Urruchi A., Vilas J.L., León L.M. Carbohydrate Polymers, 136, 250, 258, (2016) |
Physical aging and mechanical performance of poly(l-lactide)/ZnO nanocompositesLizundia E., Pérez-Álvarez L., Sáenz-Pérez M., Patrocinio D., Vilas J.L., León L.M. Journal of Applied Polymer Science, 133, 45, 43619, (2016) |
PLLA-grafted cellulose nanocrystals: Role of the CNC content and grafting on the PLA bionanocomposite film propertiesLizundia E., Fortunati E., Dominici F., Vilas J.L., León L.M., Armentano I., Torre L., Kenny J.M. Carbohydrate Polymers, 142, 105, 113, (2016) |
PLLA/ZnO nanocomposites: Dynamic surfaces to harness cell differentiationTrujillo S., Lizundia E., Vilas J.L., Salmeron-Sanchez M. Colloids and Surfaces B: Biointerfaces, 144, 152, 160, (2016) |
Poly(l -lactide)/zno nanocomposites as efficient UV-shielding coatings for packaging applicationsLizundia E., Ruiz-Rubio L., Vilas J.L., León L.M. Journal of Applied Polymer Science, 133, 2, 42426, (2016) |
Poly(L-lactide)/branched β-cyclodextrin blends: Thermal, morphological and mechanical propertiesLizundia E., Gómez-Galván F., Pérez-Álvarez L., León L.M., Vilas J.L. Carbohydrate Polymers, 144, 25, 32, (2016) |
Three-dimensional orientation of poly(l-lactide) crystals under uniaxial drawingLizundia E., Larrañaga A., Vilas J.L., León L.M. RSC Advances, 6, 15, 11943, 11951, (2016) |
Towards the development of eco-friendly disposable polymers: ZnO-initiated thermal and hydrolytic degradation in poly(l-lactide)/ZnO nanocompositesLizundia E., Ruiz-Rubio L., Vilas J.L., León L.M. RSC Advances, 6, 19, 15660, 15669, (2016) |
Crystallization, structural relaxation and thermal degradation in Poly(l-lactide)/cellulose nanocrystal renewable nanocompositesLizundia E., Vilas J.L., León L.M. Carbohydrate Polymers, 123, 256, 265, (2015) |
Influence of N-alkyl and α-substitutions on the thermal behaviour of H-bonded interpolymer complexes based on polymers with acrylamide or lactame groups and poly(4-vinylphenol)Ruiz-Rubio L., Lizundia E., Vilas J.L., León L.M., Rodríguez M. Thermochimica Acta, 614, 191, 198, (2015) |
Influence of α-methyl substitutions on interpolymer complexes formation between poly(meth)acrylic acids and poly(N-isopropyl(meth)acrylamide)sRuiz-Rubio L., Álvarez V., Lizundia E., Vilas J.L., Rodríguez M., León L.M. Colloid and Polymer Science, 293, 5, 1447, 1455, (2015) |
Study of the chain microstructure effects on the resulting thermal properties of poly(l-lactide)/poly(N-isopropylacrylamide) biomedical materialsLizundia E., Meaurio E., Laza J.M., Vilas J.L., León Isidro L.M. Materials Science and Engineering C, 50, 97, 106, (2015) |
High-Performance Room Temperature Lithium-Ion Battery Solid Polymer Electrolytes Based on Poly(vinylidene fluoride- co-hexafluoropropylene) Combining Ionic Liquid and ZeoliteBarbosa J.C., Correia D.M., Fernández E.M., Fidalgo-Marijuan A., Barandika G., Gonçalves R., Ferdov S., De Zea Bermudez V., Costa C.M., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 13, 41, 48889, 48900, (2021) |
Multifunctionality of weak ferromagnetic porphyrin-based MOFs: selective adsorption in the liquid and gas phaseAmayuelas E., Iacomi P., Fidalgo-Marijuan A., Bazán B., Urtiaga M.K., Barandika G., Lezama L., Llewellyn P.L., Arriortua M.I. CrystEngComm, 23, 23, 4205, 4213, (2021) |
Encapsulation of β-alanine model amino-acid in zirconium(IV) metal organic frameworks: Defect engineering to improve host guest interactionsMuguruza A.R., de Luis R.F., Iglesias N., Bazán B., Urtiaga M.-K., Larrea E.S., Fidalgo-Marijuan A., Barandika G. Journal of Inorganic Biochemistry, 205, 110977, (2020) |
Ionothermal synthesis of cadmium coordination polymers: Ionic liquid effects on the synthesis, structural, and thermal characterizationPerezF I., Larrea E.S., Bazán B., Barandika G., Urtiaga M.K., Arriortua M.I. Molecules, 24, 22, molecules24224059, (2019) |
Double role of metalloporphyrins in catalytic bioinspired supramolecular metal-organic frameworks (SMOFs)Fidalgo-Marijuan A., Amayuelas E., Barandika G., Larrea E.S., Bazán B., Urtiaga M.K., Iglesias M., Arriortua M.I. IUCrJ, 5, 559, 568, (2018) |
Aluminum alkali metalate derivatives: Factors driving the final nuclearity in the crystal formMuñoz M.T., Barandika G., Bazán B., Cuenca T., Mosquera M.E.G. European Journal of Inorganic Chemistry, 2017, 13, 1994, 2001, (2017) |
Cationic Mn2+/H+ exchange leading a slow solid-state transformation of a 2D porphyrinic network at ambient conditionsAmayuelas E., Fidalgo-Marijuan A., Bazán B., Urtiaga M.K., Barandika G., Lezama L., Arriortua M.I. Journal of Solid State Chemistry, 247, 161, 167, (2017) |
Highly thermally stable heterogeneous catalysts: Study of 0D and 3D porphyrinic MOFsAmayuelas E., Fidalgo-Marijuán A., Bazán B., Urtiaga M.K., Barandika G., Arriortua M.I. CrystEngComm, 19, 48, 7244, 7252, (2017) |
CuII-based metal-organic nanoballs for very rapid adsorption of dyes and iodineAmayuelas E., Fidalgo-Marijuán A., Bazán B., Urtiaga M.-K., Barandika G., Arriortua M.-I. CrystEngComm, 18, 10, 1709, 1712, (2016) |
Thermal and Magnetic Diversity in the Behaviour of the CuII-bdc-bpa System: 1D, 2D and Interpenetrated 3D FrameworksBravo-García L., Barandika G., Fidalgo-Marijuan A., Bazan B., Urtiaga M.K., Lezama L., Arriortua M.I. European Journal of Inorganic Chemistry, 2016, 29, 4783, 4791, (2016) |
Coordination and crystallization molecules: Their interactions affecting the dimensionality of metalloporphyrinic SCFsFidalgo-Marijuan A., Amayuelas E., Barandika G., Bazán B., Urtiaga M.K., Arriortua M.I. Molecules, 20, 4, 6683, 6699, (2015) |
Cu-PDC-bpa solid coordination frameworks (PDC=2,5-pyrindinedicarboxylate; bpa=1,2-DI(4-pyridil)ethane)): 2D and 3D structural flexibility producing a 3-c herringbone array next to idealLlano-Tomé F., Bazán B., Urtiaga M.-K., Barandika G., Antonia Señarís-Rodríguez M., Sánchez-Andújar M., Arriortua M.-I. Journal of Solid State Chemistry, 230, 18967, 191, 198, (2015) |
Heterogeneous catalytic properties of unprecedented μ-O-[FeTCPP]2 dimers (H2TCPP = meso-tetra(4-carboxyphenyl)porphyrin): An unusual superhyperfine EPR structureFidalgo-Marijuan A., Barandika G., Bazán B., Urtiaga M.K., Larrea E.S., Iglesias M., Lezama L., Arriortua M.I. Dalton Transactions, 44, 1, 213, 222, (2015) |
Mother structures related to the hexagonal and cubic close packing in Cu24 clusters: Solvent-influenced derivativesAmayuelas E., Fidalgo-Marijuan A., Barandika G., Bazán B., Urtiaga M.-K., Arriortua M.I. CrystEngComm, 17, 17, 3297, 3304, (2015) |
Thermal stability of ionic nets with CuII ions coordinated to di-2-pyridyl ketone: Reversible crystal-to-crystal phase transformationBravo-García L., Barandika G., Bazán B., Urtiaga M.K., Arriortua M.I. Polyhedron, 92, 117, 123, (2015) |
Water-induced phase transformation of a CuII coordination framework with pyridine-2,5-dicarboxylate and di-2-pyridyl ketone: synchrotron radiation analysisLlano-Tomé F., Bazán B., Urtiaga M.K., Barandika G., Fidalgo-Marijuan A., Fernández De Luis R., Arriortua M.I. CrystEngComm, 17, 33, 6346, 6354, (2015) |
CuII-PDC-bpe frameworks (PDC = 2,5-pyridinedicarboxylate, bpe = 1,2-di(4-pyridyl)ethylene): Mapping of herringbone-type structuresLlano-Tomé F., Bazán B., Urtiaga M.-K., Barandika G., Lezama L., Arriortua M.-I. CrystEngComm, 16, 37, 8726, 8735, (2014) |
Synthesis and characterization of Fe—Co—V high magnetization nanoparticles obtained by physical routesVadillo V., Gutierrez J., Insausti M., Garitaonandia J.S., de Muro I.G., Quintana I., Barandiaran J.M. IEEE Magnetics Letters (In Press) |
Getting insight into how iron(III) oleate precursors affect the features of magnetite nanoparticlesNader K., Castellanos-Rubio I., Orue I., Iglesias-Rojas D., Barón A., Gil de Muro I., Lezama L., Insausti M. Journal of Solid State Chemistry, 316, 123619, (2022) |
Towards the design of contrast-enhanced agents: Systematic Ga3+doping on magnetite nanoparticlesGalarreta-Rodriguez I., Marcano L., Castellanos-Rubio I., Gil De Muro I., García I., Olivi L., Fernández-Gubieda M.L., Castellanos-Rubio A., Lezama L., De Larramendi I.R., Insausti M. Dalton Transactions, 51, 6, 2517, 2530, (2022) |
Aspects concerning the fabrication of magnetorheological fluids containing high magnetization FeCo nanoparticlesGutiérrez J., Vadillo V., Gómez A., Berasategi J., Insausti M., Gil de Muro I., Bou-Ali M.M. Fluids, 6, 3, 132, (2021) |
High magnetization FeCo nanoparticles for magnetorheological fluids with enhanced responseVadillo V., Gómez A., Berasategi J., Gutiérrez J., Insausti M., Gil de Muro I., Garitaonandia J.S., Arbe A., Iturrospe A., Bou-Ali M.M., Barandiarán J.M. Soft Matter, 17, 4, 840, 852, (2021) |
Highly Reproducible Hyperthermia Response in Water, Agar, and Cellular Environment by Discretely PEGylated Magnetite NanoparticlesCastellanos-Rubio I., Rodrigo I., Olazagoitia-Garmendia A., Arriortua O., Gil De Muro I., Garitaonandia J.S., Bilbao J.R., Fdez-Gubieda M.L., Plazaola F., Orue I., Castellanos-Rubio A., Insausti M. ACS Applied Materials and Interfaces, 12, 25, 27917, 27929, (2020) |
Mn-Doping level dependence on the magnetic response of MnxFe3- xO4 ferrite nanoparticlesLasheras X., Insausti M., De La Fuente J.M., Gil De Muro I., Castellanos-Rubio I., Marcano L., Fernández-Gubieda M.L., Serrano A., Martín-Rodríguez R., Garaio E., García J.A., Lezama L. Dalton Transactions, 48, 30, 11480, 11491, (2019) |
Exploring reaction conditions to improve the magnetic response of cobalt-doped ferrite nanoparticlesGalarreta I., Insausti M., de Muro I.G., de Larramendi I.R., Lezama L. Nanomaterials, 8, 2, 63, (2018) |
RGD-Functionalized Fe3O4 nanoparticles for magnetic hyperthermiaArriortua O.K., Insausti M., Lezama L., Gil de Muro I., Garaio E., de la Fuente J.M., Fratila R.M., Morales M.P., Costa R., Eceiza M., Sagartzazu-Aizpurua M., Aizpurua J.M. Colloids and Surfaces B: Biointerfaces, 165, 315, 324, (2018) |
Intra-particle chemical homogeneity determining the exchange coupling in palladium-iron nanoparticlesCastellanos-Rubio I., Insausti M., De Muro I.G., Arias-Duque D.C., Hernández-Garrido J.C., Lezama L. Journal of Applied Physics, 121, 8, 084302, (2017) |
Na2.5Fe1.75(SO4)3/Ketjen/rGO: An advanced cathode composite for sodium ion batteriesGoñi A., Iturrondobeitia A., Gil de Muro I., Lezama L., Rojo T. Journal of Power Sources, 369, 95, 102, (2017) |
Physico-chemical and electrochemical properties of nanoparticulate NiO/C composites for high performance lithium and sodium ion battery anodesIturrondobeitia A., Goñi A., De Muro I.G., Lezama L., Rojo T. Nanomaterials, 7, 12, 423, (2017) |
Synthesis, physical and microwave absorption properties of Barium ferrite - P(VDF-TrFE) nanocompositesGutiérrez J., Miren Gutiérrez Muto A., Pena A., San Sebastián M., Catarina Lopes A., Lezama L., De Muro I.G., Larranaga A., Orue I. Journal of Physics: Conference Series, 939, 1, 012022, (2017) |
Chemical Synthesis and Magnetic Properties of Monodisperse Nickel Ferrite Nanoparticles for Biomedical ApplicationsLasheras X., Insausti M., Gil De Muro I., Garaio E., Plazaola F., Moros M., De Matteis L., M. De La Fuente J., Lezama L. Journal of Physical Chemistry C, 120, 6, 3492, 3500, (2016) |
Tuning the size of palladium nanoparticles in organic and aqueous solutions: Influence of aminated and thiolated ligandsCastellanos-Rubio I., Insausti M., Gil De Muro I., Rojo T., Lezama L. Journal of Nanoscience and Nanotechnology, 16, 4, 4071, 4079, (2016) |
Effect of carbon coating on the physicochemical and electrochemical properties of Fe2O3 nanoparticles for anode application in high performance lithium ion batteriesIturrondobeitia A., Gon A., Orue I., Gil De Muro I., Lezama L., Doeff M.M., Rojo T. Inorganic Chemistry, 54, 11, 5239, 5248, (2015) |
High-voltage cathode materials for lithium-ion batteries: Freeze-dried LiMn0.8Fe0.1M0.1PO4/C (M = Fe, Co, Ni, Cu) nanocompositesIturrondobeitia A., Goñi A., Gil De Muro I., Lezama L., Kim C., Doeff M., Cabana J., Rojo T. Inorganic Chemistry, 54, 6, 2671, 2678, (2015) |
The impact of the chemical synthesis on the magnetic properties of intermetallic PdFe nanoparticlesCastellanos-Rubio I., Insausti M., de Muro I.G., Arias-Duque D.C., Hernández-Garrido J.C., Rojo T., Lezama L. Journal of Nanoparticle Research, 17, 5, 229, 13, (2015) |
Fe3O4 nanoparticles prepared by the seeded-growth route for hyperthermia: Electron magnetic resonance as a key tool to evaluate size distribution in magnetic nanoparticlesCastellanos-Rubio I., Insausti M., Garaio E., Gil De Muro I., Plazaola F., Rojo T., Lezama L. Nanoscale, 6, 13, 7542, 7552, (2014) |
J. Reguera current research interest is: the design and characterization of novel multifunction patchy nanoparticles, assembly and self-assembly of nanoparticles, and their use in applications in biomedicine, environmental and sensing among others.
Hybrid TiO2:Au nanostars based polymeric membranes for photocatalytic degradation of ciprofloxacin in water samplesZheng F., Martins P.M., Queirós J.M., Tavares C.J., Vilas-Vilela J.L., Lanceros-Méndez S., Reguera J. Chemosphere, 313, 137630, (2023) |
Core-Shell Fe3O4@Au Nanorod-Loaded Gels for Tunable and Anisotropic Magneto- and PhotothermiaRincón-Iglesias M., Rodrigo I., Berganza L.B., Serea E.S.A., Plazaola F., Lanceros-Méndez S., Lizundia E., Reguera J. ACS Applied Materials and Interfaces, 14, 5, 7130, 7140, (2022) |
Enhancement of Magnetic Surface-Enhanced Raman Scattering Detection by Tailoring Fe3O4@Au Nanorod Shell Thickness and Its Application in the On-site Detection of Antibiotics in WaterBerganza L.B., Litti L., Meneghetti M., Lanceros-Méndez S., Reguera J. ACS Omega, 7, 49, 45493, 45503, (2022) |
Multicomponent magnetic nanoparticle engineering: the role of structure-property relationship in advanced applicationsDíez A.G., Rincón-Iglesias M., Lanceros-Méndez S., Reguera J., Lizundia E. Materials Today Chemistry, 26, 101220, (2022) |
Silver Nanoparticles for Conductive Inks: From Synthesis and Ink Formulation to Their Use in Printing TechnologiesZhang J., Ahmadi M., Fargas G., Perinka N., Reguera J., Lanceros-Méndez S., Llanes L., Jiménez-Piqué E. Metals, 12, 2, 234, (2022) |
Size Effect in Hybrid TiO2:Au Nanostars for Photocatalytic Water Remediation ApplicationsZheng F., Martins P.M., Queirós J.M., Tavares C.J., Vilas-Vilela J.L., Lanceros-Méndez S., Reguera J. International Journal of Molecular Sciences, 23, 22, 13741, (2022) |
Upcycling discarded cellulosic surgical masks into catalytically active freestanding materialsReguera J., Zheng F., Shalan A.E., Lizundia E. Cellulose, 29, 4, 2223, 2240, (2022) |
3D Printed Microfluidic Device for Magnetic Trapping and SERS Quantitative Evaluation of Environmental and Biomedical AnalytesLitti L., Trivini S., Ferraro D., Reguera J. ACS Applied Materials and Interfaces, 13, 29, 34752, 34761, (2021) |
Chitin/Metal-Organic Framework Composites as Wide-Range AdsorbentTovar Jimenez G.I., Valverde A., Mendes-Felipe C., Wuttke S., Fidalgo-Marijuan A., Larrea E.S., Lezama L., Zheng F., Reguera J., Lanceros-Méndez S., Arriortua M.I., Copello G., de Luis R.F. ChemSusChem, 14, 14, 2892, 2901, (2021) |
Ionic liquid-based materials for biomedical applicationsCorreia D.M., Fernandes L.C., Fernandes M.M., Hermenegildo B., Meira R.M., Ribeiro C., Ribeiro S., Reguera J., Lanceros-Méndez S. Nanomaterials, 11, 9, 2401, (2021) |
Photoactivated Nanoscale Temperature Gradient Detection Using X-ray Absorption Spectroscopy as a Direct Nanothermometry MethodEspinosa A., Castro G.R., Reguera J., Castellano C., Castillo J., Camarero J., Wilhelm C., García M.A., Muñoz-Noval A. Nano Letters, 21, 1, 769, 777, (2021) |
Ionic Liquid–Polymer Composites: A New Platform for Multifunctional ApplicationsCorreia D.M., Fernandes L.C., Martins P.M., García-Astrain C., Costa C.M., Reguera J., Lanceros-Méndez S. Advanced Functional Materials, 30, 24, 1909736, (2020) |
Janus Magnetic-Plasmonic Nanoparticles for Magnetically Guided and Thermally Activated Cancer TherapyEspinosa A., Reguera J., Curcio A., Muñoz-Noval Á., Kuttner C., Van de Walle A., Liz-Marzán L.M., Wilhelm C. Small, 16, 11, 1904960, (2020) |
Manipulating chemistry through nanoparticle morphologyLitti L., Reguera J., Garciá De Abajo F.J., Meneghetti M., Liz-Marzán L.M. Nanoscale Horizons, 5, 1, 102, 108, (2020) |
Self-assembly of Janus Au:Fe3O4branched nanoparticles. From organized clusters to stimuli-responsive nanogel suprastructuresReguera J., Reguera J., Reguera J., Flora T., Flora T., Winckelmans N., Rodríguez-Cabello J.C., Rodríguez-Cabello J.C., Bals S. Nanoscale Advances, 2, 6, 2525, 2530, (2020) |
Self-assembly of Janus Au:Fe3O4branched nanoparticles. From organized clusters to stimuli-responsive nanogel suprastructuresReguera J., Reguera J., Reguera J., Flora T., Flora T., Winckelmans N., Rodríguez-Cabello J.C., Rodríguez-Cabello J.C., Bals S. Nanoscale Advances, 2, 6, 2525, 2530, (2020) |
Self-assembly of Janus Au:Fe3O4branched nanoparticles. From organized clusters to stimuli-responsive nanogel suprastructuresReguera J., Reguera J., Reguera J., Flora T., Flora T., Winckelmans N., Rodríguez-Cabello J.C., Rodríguez-Cabello J.C., Bals S. Nanoscale Advances, 2, 6, 2525, 2530, (2020) |
FexCo1-x alloy nanoparticles: Synthesis, structure, magnetic characterization and magnetorheological applicationVadillo V., Insausti M., Gutiérrez J. Journal of Magnetism and Magnetic Materials, 563, 169975, (2022) |
Magnetoelastic Resonance Detection of Calcium Oxalate Precipitation in Low Concentration SolutionsSisniega B., Gutierrez J., Garcia-Arribas A. IEEE Transactions on Magnetics, 58, 2, (2022) |
Aspects concerning the fabrication of magnetorheological fluids containing high magnetization FeCo nanoparticlesGutiérrez J., Vadillo V., Gómez A., Berasategi J., Insausti M., Gil de Muro I., Bou-Ali M.M. Fluids, 6, 3, 132, (2021) |
High magnetization FeCo nanoparticles for magnetorheological fluids with enhanced responseVadillo V., Gómez A., Berasategi J., Gutiérrez J., Insausti M., Gil de Muro I., Garitaonandia J.S., Arbe A., Iturrospe A., Bou-Ali M.M., Barandiarán J.M. Soft Matter, 17, 4, 840, 852, (2021) |
Anisotropic behaviour analysis of silicone/carbonyl iron particles magnetorheological elastomersBerasategi J., Salazar D., Gomez A., Gutierrez J., Sebastián M.S., Bou-Ali M., Barandiaran J.M. Rheologica Acta, 59, 7, 469, 476, (2020) |
Development of novel piezo-ionic/magnetostrictive composites for energy generation systemsLasheras A., G.saiz P., Gutiérrez J., Lopes A.C. Smart Materials and Structures, 29, 8, 085041, (2020) |
Improved determination of q quality factor and resonance frequency in sensors based on the magnetoelastic resonance through the fitting to analytical expressionsSisniega B., Gutiérrez J., Muto V., García-Arribas A. Materials, 13, 21, 4708, 1, 15, (2020) |
Magnetic, magnetoelastic and corrosion resistant properties of (Fe-Ni)-based metallic glasses for structural health monitoring applicationsSagasti A., Palomares V., Porro J.M., Orúe I., Sánchez-Ilárduya M.B., Lopes A.C., Gutiérrez J. Materials, 13, 1, 57, (2020) |
Real time monitoring of calcium oxalate precipitation reaction by using corrosion resistant magnetoelastic resonance sensorsSisniega B., Sedano A.S., Gutiérrez J., García-Arribas A. Sensors (Switzerland), 20, 10, 2802, (2020) |
Rhombic-magnetoelastic/metal-organic framework functionalized resonators for highly sensitive toluene detectionSaiz P.G., De Luis R.F., Bartolome L., Gutiérrez J., Arriortua M.I., Lopes A.C. Journal of Materials Chemistry C, 8, 39, 13743, 13753, (2020) |
Theoretical and Experimental Analysis of Novel Rhombus Shaped Magnetoelastic Sensors with Enhanced Mass SensitivitySaiz P.G., Gutiérrez J., Arriortua M.I., Lopes A.C. IEEE Sensors Journal, 20, 22, 9130734, 13332, 13340, (2020) |
Enhanced mass sensitivity in novel magnetoelastic resonators geometries for advanced detection systemsG. Saiz P., Gandia D., Lasheras A., Sagasti A., Quintana I., Fdez-Gubieda M.L., Gutiérrez J., Arriortua M.I., Lopes A.C. Sensors and Actuators, B: Chemical, 296, 126612, (2019) |
Size dependence of the magnetoelastic properties of metallic glasses for actuation applicationsSagasti A., Gutiérrez J., Lasheras A., Barandiarán J.M. Sensors (Switzerland), 19, 19, 4296, (2019) |
Corrosion resistant metallic glasses for biosensing applicationsSagasti A., Lopes A.C., Lasheras A., Palomares V., Carrizo J., Gutierrez J., Barandiaran J.M. AIP Advances, 8, 4, 047702, (2018) |
Direct fabrication of a 3D-shape film of polyvinylidene fluoride (PVDF) in the piezoelectric β-phase for sensor and actuator applicationsLopes A.C., Gutiérrez J., Barandiarán J.M. European Polymer Journal, 99, 111, 116, (2018) |
Electrospun poly(vinylidene fluoride-trifluoroethylene) based flexible magnetoelectric nanofibersHernández N., González-González V.A., Dzul-Bautista I.B., Ornelas-Soto N., Barandiarán J.M., Gutierrez J. European Polymer Journal, 109, 336, 340, (2018) |
Fe nanoparticles produced by electric explosion of wire for new generation of magneto-rheological fluidsBerasategi J., Gomez A., Bou-Ali M.M., Gutiérrez J., Barandiarán J.M., Beketov I.V., Safronov A.P., Kurlyandskaya G.V. Smart Materials and Structures, 27, 4, 045011, (2018) |
Metallic glass/PVDF magnetoelectric laminates for resonant sensors and actuators: A reviewGutiérrez J., Lasheras A., Martins P., Pereira N., Barandiarán J.M., Lanceros-Mendez S. Sensors (Switzerland), 17, 6, 1251, (2017) |
Nanostructured ZnO in a Metglas/ZnO/hemoglobin modified electrode to detect the oxidation of the hemoglobin simultaneously by cyclic voltammetry and magnetoelastic resonanceSagasti A., Bouropoulos N., Kouzoudis D., Panagiotopoulos A., Topoglidis E., Gutiérrez J. Materials, 10, 8, 849, (2017) |
Synthesis, physical and microwave absorption properties of Barium ferrite - P(VDF-TrFE) nanocompositesGutiérrez J., Miren Gutiérrez Muto A., Pena A., San Sebastián M., Catarina Lopes A., Lezama L., De Muro I.G., Larranaga A., Orue I. Journal of Physics: Conference Series, 939, 1, 012022, (2017) |
Nd and Sc co-doped BiFeO3 nanopowders displaying enhanced ferromagnetism at room temperatureHernández N., González-González V.A., Dzul-Bautista I.B., Gutiérrez J., Barandiarán J.M., Ruiz De Larramendi I., Cienfuegos-Pelaes R.F., Ortiz-Méndez U. Journal of Alloys and Compounds, 638, 33713, 282, 288, (2015) |
Effect of filler dispersion and dispersion method on the piezoelectric and magnetoelectric response of CoFe 2 O 4 /P(VDF-TrFE) nanocompositesMartins P., Gonçalves R., Lanceros-Mendez S., Lasheras A., Gutiérrez J., Barandiarán J.M. Applied Surface Science, 313, 215, 219, (2014) |
Sensor applications of soft magnetic materials based on magneto-impedance, magneto-elastic resonance and magneto-electricityGarcía-Arribas A., Gutiérrez J., Kurlyandskaya G.V., Barandiarán J.M., Svalov A., Fernández E., Lasheras A., de Cos D., Bravo-Imaz I. Sensors (Switzerland), 14, 5, 7602, 7624, (2014) |
Synthesis and characterization of novel piezoelectric nitrile copolyimide films for high temperature sensor applicationsMaceiras A., Martins P., San Sebastián M., Lasheras A., Silva M., Laza J.M., Vilas J.L., Gutierrez J., Lanceros-Mendez S., Barandiarán J.M., León L.M. Smart Materials and Structures, 23, 10, 105015, (2014) |
Slow Magnetic Relaxation and Luminescent Properties of Mononuclear Lanthanide-Substituted Keggin-Type Polyoxotungstates with Compartmental Organic LigandsRuiz-Bilbao E., Pardo-Almanza M., Oyarzabal I., Artetxe B., Felices L.S., García J.A., Seco J.M., Colacio E., Lezama L., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 61, 5, 2428, 2443, (2022) |
Isolation of the Elusive Heptavanadate Anion with Trisalkoxide LigandsFernández-Navarro L., Nunes-Collado A., Artetxe B., Ruiz-Bilbao E., San Felices L., Reinoso S., San José Wéry A., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 60, 8, 5442, 5445, (2021) |
Single-Crystal-to-Single-Crystal Cluster Transformation in a Microporous Molybdoarsenate(V)-Metalorganic FrameworkDissem N., Artetxe B., San Felices L., Beobide G., Castillo O., Ruiz-Bilbao E., Lezama L., Vivanco M.D., Haddad A., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 60, 19, 14913, 14923, (2021) |
Thermally Induced Structural Transitions between Single-Crystalline States in the First Hybrid Compound Combining Keggin-Type Clusters with Metal-Cyclam Complexes: From Two-Dimensional Covalent Assemblies to Discrete Molecular SpeciesFernández-Navarro L., Iturrospe A., Reinoso S., Artetxe B., Ruiz-Bilbao E., San Felices L., Gutiérrez-Zorrilla J.M. Crystal Growth and Design, 20, 5, 3499, 3509, (2020) |
Chitosan nanogels as nanocarriers of polyoxometalates for breast cancer therapiesPérez-Álvarez L., Ruiz-Rubio L., Artetxe B., Vivanco M.D., Gutiérrez-Zorrilla J.M., Vilas-Vilela J.L. Carbohydrate Polymers, 213, 159, 167, (2019) |
Structural transformations in the thermal dehydration of [Cu2 (bpa)(btec)(H2O) 4]n coordination polymerBravo-García L., Larrea E.S., Artetxe B., Lezama L., Gutiérrez-Zorrilla J.M., Arriortua M.I. Molecules, 24, 9, 1840, (2019) |
Thermostructural Behavior in a Series of Lanthanide-Containing Polyoxotungstate Hybrids with Copper(II) Complexes of the Tetraazamacrocycle Cyclam: A Single-Crystal-to-Single-Crystal Transformation StudyMartín-Caballero J., Artetxe B., Reinoso S., San Felices L., Vitoria P., Larrañaga A., Vilas J.L., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 58, 7, 4365, 4375, (2019) |
Toward advanced functional systems: Honeycomb-like polymeric surfaces incorporating polyoxovanadates with surface-appended copper-cyclam complexesRuiz-Rubio L., Artetxe B., Pérez-Álvarez L., Martín-Caballero J., Ishihara T., Gutiérrez-Zorrilla J.M., Vilas-Vilela J.L. Molecules, 24, 12, 2313, (2019) |
A charge-transfer salt based on ferrocene/ferrocenium pairs and Keggin-type polyoxometalatesArtetxe B., Iturrospe A., Vitoria P., Ruiz-Bilbao E., Garitaonandia J.S., Gutiérrez-Zorrilla J.M. Molecules, 23, 12, 3150, (2018) |
Immobilization of polyoxometalates on tailored polymeric surfacesAguado-Ureta S., Rodríguez-Hernández J., del Campo A., Perez-Álvarez L., Ruiz-Rubio L., Vilas J.L., Artetxe B., Reinoso S., Gutiérrez-Zorrilla J.M. Nanomaterials, 8, 3, 142, (2018) |
Thermally-Triggered Crystal Dynamics and Permanent Porosity in the First Heptatungstate-Metalorganic Three-Dimensional Hybrid FrameworkMartín-Caballero J., Artetxe B., Reinoso S., San Felices L., Castillo O., Beobide G., Vilas J.L., Gutiérrez-Zorrilla J.M. Chemistry - A European Journal, 23, 59, 14962, 14974, (2017) |
A Robust Open Framework Formed by Decavanadate Clusters and Copper(II) Complexes of Macrocyclic Polyamines: Permanent Microporosity and Catalytic Oxidation of CycloalkanesMartín-Caballero J., San José Wéry A., Reinoso S., Artetxe B., San Felices L., El Bakkali B., Trautwein G., Alcañiz-Monge J., Vilas J.L., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 55, 10, 4970, 4979, (2016) |
Effect of Directional Hydrogen Bonding on the Self-Assembly of Anisotropically-Shaped MacroionsHaso F., Luo J., Bassil B.S., Artetxe B., Zhou J., Yin P., Reinoso S., Gutiérrez-Zorrilla J.M., Kortz U., Liu T. ChemistrySelect, 1, 14, 4345, 4349, (2016) |
Naphthyl-containing organophosphonate derivatives of Keggin-type polyoxotungstatesAndino N., Artetxe B., Reinoso S., Vitoria P., Felices L.S., Martínez J.I., Arbeloa F.L., Gutiérrez-Zorrilla J.M. Inorganics, 4, 2, 14, (2016) |
New Perspectives for Old Clusters: Anderson-Evans Anions as Building Blocks of Large Polyoxometalate Frameworks in a Series of Heterometallic 3 d-4 f SpeciesArtetxe B., Reinoso S., San Felices L., Lezama L., Gutiérrez-Zorrilla J.M., Vicent C., Haso F., Liu T. Chemistry - A European Journal, 22, 13, 4616, 4625, (2016) |
Crown-shaped tungstogermanates as solvent-controlled dual systems in the formation of vesicle-like assembliesArtetxe B., Reinoso S., San Felices L., Gutiérrez-Zorrilla J.M., García J.A., Haso F., Liu T., Vicent C. Chemistry - A European Journal, 21, 21, 7736, 7745, (2015) |
Dimeric assemblies of lanthanide-stabilised dilacunary Keggin tungstogermanates: A new class of catalysts for the selective oxidation of anilineTrautwein G., El Bakkali B., Alcañiz-Monge J., Artetxe B., Reinoso S., Gutiérrez-Zorrilla J.M. Journal of Catalysis, 331, 110, 117, (2015) |
Functionalization of Krebs -type polyoxometalates with N,O-chelating ligands: A systematic studyArtetxe B., Reinoso S., San Felices L., Vitoria P., Pache A., Martín-Caballero J., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 54, 1, 241, 252, (2015) |
Rearrangement of a krebs-type polyoxometalate upon coordination of N,O-bis(bidentate) ligandsArtetxe B., Reinoso S., San Felices L., Lezama L., Pache A., Vicent C., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 54, 2, 409, 411, (2015) |
Sequential single-crystal-to-single-crystal transformations promoted by gradual thermal dehydration in a porous metavanadate hybridMartín-Caballero J., Wéry A.S.J., Artetxe B., Reinoso S., Felices L.S., Vilas J.L., Gutiérrez-Zorrilla J.M. CrystEngComm, 17, 46, 8915, 8925, (2015) |
Single-crystal to single-crystal reversible transformations induced by thermal dehydration in Keggin-type polyoxometalates decorated with copper(II)-picolinate complexes: The structure directing role of guanidiniumPache A., Reinoso S., Felices L.S., Iturrospe A., Lezama L., Gutiérrez-Zorrilla J.M. Inorganics, 3, 2, 194, 218, (2015) |
Cation-directed dimeric versus tetrameric assemblies of lanthanide-stabilized dilacunary keggin tungstogermanatesArtetxe B., Reinoso S., San Felices L., Lezama L., Gutiérrez-Zorrilla J.M., García J.A., Galán-Mascarõs J.R., Haider A., Kortz U., Vicent C. Chemistry - A European Journal, 20, 38, 12144, 12156, (2014) |
Reversible dehydration in polyoxometalate-based hybrid compounds: A study of single-crystal to single-crystal transformations in keggin-type germanotungstates decorated with copper(ii) complexes of tetradentate N-donor ligandsIturrospe A., San Felices L., Reinoso S., Artetxe B., Lezama L., Gutiérrez-Zorrilla J.M. Crystal Growth and Design, 14, 5, 2318, 2328, (2014) |
Covalent Cross-Linking as a Strategy to Prepare Water-Dispersible Chitosan NanogelsMuñana-González S., Veloso-Fernández A., Ruiz-Rubio L., Pérez-Álvarez L., Vilas-Vilela J.L. Polymers, 15, 2, 434, (2023) |
Design and 3D printing of an electrochemical sensor for Listeria monocytogenes detection based on loop mediated isothermal amplificationRivas-Macho A., Eletxigerra U., Diez-Ahedo R., Merino S., Sanjuan A., Bou-Ali M.M., Ruiz-Rubio L., del Campo J., Vilas-Vilela J.L., Goñi-de-Cerio F., Olabarria G. Heliyon, 9, 1, e12637, (2023) |
Crystallization behaviour analysis of norbornene based semicrystalline cyclic olefin copolymer (c-COC) for Point-of-care (PoC) device manufacturingEtxeberria L., Anakabe J., Fernández L., Larrañaga-Varga A., Vilas-Vilela J.L., Ruiz-Rubio L., Zaldua A.M. European Polymer Journal, 177, 111422, (2022) |
Hybrid Organic–Inorganic Membranes for Photocatalytic Water RemediationMendes-Felipe C., Veloso-Fernández A., Vilas-Vilela J.L., Ruiz-Rubio L. Catalysts, 12, 2, 180, (2022) |
Polyoxometalate-polymer hybrid materialsRuiz-Rubio L., Moreno I., Vilas-Vilela J.L. Polyoxometalates: Advances, Properties, and Applications, 157, 188, (2022) |
Spontaneous Gelation of Adhesive Catechol Modified Hyaluronic Acid and ChitosanConejo-Cuevas G., Ruiz-Rubio L., Sáez-Martínez V., Pérez-González R., Gartziandia O., Huguet-Casquero A., Pérez-Álvarez L. Polymers, 14, 6, 1209, (2022) |
State of the art and current trends on layered inorganic-polymer nanocomposite coatings for anticorrosion and multi-functional applicationsTeijido R., Ruiz-Rubio L., Echaide A.G., Vilas-Vilela J.L., Lanceros-Mendez S., Zhang Q. Progress in Organic Coatings, 163, 106684, (2022) |
Towards a new generation of non-cytotoxic shape memory thermoplastic polyurethanes for biomedical applicationsVeloso-Fernández A., Laza J.M., Ruiz-Rubio L., Martín A., Taguado M., Benito-Vicente A., Martín C., Vilas J.L. Materials Today Communications, 33, 104730, (2022) |
Understanding electrogenerated chemiluminescence at graphite screen-printed electrodesAlba A.F., Fernández-de Luis R., Totoricaguena-Gorriño J., Ruiz-Rubio L., Sánchez J., Vilas-Vilela J.L., Lanceros-Méndez S., del Campo F.J. Journal of Electroanalytical Chemistry, 914, 116331, (2022) |
Wound healing and antibacterial chitosan-genipin hydrogels with controlled drug delivery for synergistic anti-inflammatory activityAndrade del Olmo J., Pérez-Álvarez L., Sáez-Martínez V., Benito-Cid S., Ruiz-Rubio L., Pérez-González R., Vilas-Vilela J.L., Alonso J.M. International Journal of Biological Macromolecules, 203, 679, 694, (2022) |
Antibacterial catechol-based hyaluronic acid, chitosan and poly (N-vinyl pyrrolidone) coatings onto Ti6Al4V surfaces for application as biomedical implantdel Olmo J.A., Pérez-Álvarez L., Pacha-Olivenza M.Á., Ruiz-Rubio L., Gartziandia O., Vilas-Vilela J.L., Alonso J.M. International Journal of Biological Macromolecules, 183, 1222, 1235, (2021) |
Biocompatible hyaluronic acid-divinyl sulfone injectable hydrogels for sustained drug release with enhanced antibacterial properties against Staphylococcus aureusAndrade del Olmo J., Alonso J.M., Sáez Martínez V., Ruiz-Rubio L., Pérez González R., Vilas-Vilela J.L., Pérez-Álvarez L. Materials Science and Engineering C, 125, 112102, (2021) |
Hydrogel-core microstructured polymer optical fibers for selective fiber enhanced raman spectroscopyAzkune M., Ayesta I., Ruiz-Rubio L., Arrospide E., Vilas-Vilela J.L., Zubia J. Sensors, 21, 5, 1845, 1, 11, (2021) |
Laser-activated screen-printed carbon electrodes for enhanced dopamine determination in the presence of ascorbic and uric acidAlba A.F., Totoricaguena-Gorriño J., Sánchez-Ilárduya M.B., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Méndez S., del Campo F.J. Electrochimica Acta, 399, 139374, (2021) |
Laser-induced highly oriented pyrolytic graphite for high-performance screen-printed electrodesAlba A.F., Totoricaguena-Gorrino J., Campos-Arias L., Peřinka N., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Méndez S., Del Campo F.J. Materials Advances, 2, 18, 5912, 5921, (2021) |
Nanobioremediation for soil remediation: An introductionGaldames A., Ruiz-Rubio L., Brettes P., Etxebarria J., Vilela J.L.V. Nano-Bioremediation: Fundamentals and Applications, 479, 500, (2021) |
Non-immersion ultrasonic cleaning: An efficient green process for large surfaces with low water consumptionSarasua Miranda J.A., Ruiz-Rubio L., Basterrechea E.A., Vilas-Vilela J.L. Processes, 9, 4, 585, (2021) |
Photocurable temperature activated humidity hybrid sensing materials for multifunctional coatingsMendes-Felipe C., Salado M., Fernandes L.C., Correia D.M., Ruiz-Rubio L., Tariq M., Esperança J.M.S.S., Vilas-Vilela J.L., Lanceros-Mendez S. Polymer, 221, 123635, (2021) |
Poly(L-lactide)-based anti-inflammatory responsive surfaces for surgical implantsSánchez-Bodón J., Ruiz-Rubio L., Hernáez-Laviña E., Vilas-Vilela J.L., Moreno-Benítez M.I. Polymers, 13, 1, 34, 1, 15, (2021) |
Study of the capacity of poly(N-vinylcarbazole) derivatives to form honeycomb-like patternsBekkar F., Bettahar F., Meghabar R., Hamadouche M., Moreno-Benitez I., Vilas-Vilela J.L., Ruiz-Rubio L. Journal of Applied Polymer Science, 138, 38, 50975, (2021) |
Tough hydrogels based on maleic anhydride, bulk properties study and microfiber formation by electrospinningBettahar F., Bekkar F., Pérez-Álvarez L., Ferahi M.I., Meghabar R., Vilas-Vilela J.L., Ruiz-Rubio L. Polymers, 13, 6, 972, (2021) |
Antibacterial chitosan electrostatic/covalent coating onto biodegradable poly (L-lactic acid)Andrade-Del Olmo J., Pérez-Álvarez L., Ruiz-Rubio L., Vilas-Vilela J.L. Food Hydrocolloids, 105, 105835, (2020) |
Antibacterial coatings for improving the performance of biomaterialsOlmo J.A.D., Ruiz-Rubio L., Pérez-Alvarez L., Sáez-Martínez V., Vilas-Vilela J.L. Coatings, 10, 2, 139, (2020) |
Biodegradable shape-memory polymersRuiz-Rubio L., Pérez-Álvarez L., Vilas-Vilela J.L. Advanced Structured Materials, 115, 219, 236, (2020) |
Biomaterials obtained by photopolymerization: from UV to two photonFelipe-Mendes C., Ruiz-Rubio L., Vilas-Vilela J.L. Emergent Materials, 3, 4, 453, 468, (2020) |
Lignin-based hydrogels: Synthesis and applicationsRico-García D., Ruiz-Rubio L., Pérez-Alvarez L., Hernández-Olmos S.L., Guerrero-Ramírez G.L., Vilas-Vilela J.L. Polymers, 12, 1, 81, (2020) |
Polycarbazole and its derivatives: Synthesis and applications. a review of the last 10 yearsBekkar F., Bettahar F., Moreno I., Meghabar R., Hamadouche M., Hernáez E., Vilas-Vilela J.L., Ruiz-Rubio L. Polymers, 12, 10, 2227, 1, 33, (2020) |
Polyester-based biodegradable polymers for commoditiesRuiz-Rubio L., Sánchez-Bodón J., Moreno I., Pérez-Álvarez L., Vilas-Vilela J.L. Sustainability of Polymeric Materials, 135, 172, (2020) |
Polysaccharide-based in situ self-healing hydrogels for tissue engineering applicationsMaiz-Fernández S., Pérez-álvarez L., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Mendez S. Polymers, 12, 10, 2261, 1, 33, (2020) |
Zero-valent iron nanoparticles for soil and groundwater remediationGaldames A., Ruiz-Rubio L., Orueta M., Sánchez-Arzalluz M., Vilas-Vilela J.L. International Journal of Environmental Research and Public Health, 17, 16, 5817, 1, 23, (2020) |
β-Glycerol phosphate/genipin chitosan hydrogels: A comparative study of their properties and diclofenac deliveryMaiz-Fernández S., Guaresti O., Pérez-Álvarez L., Ruiz-Rubio L., Gabilondo N., Vilas-Vilela J.L., Lanceros-Mendez S. Carbohydrate Polymers, 248, 116811, (2020) |
Antibacterial hyaluronic acid/chitosan multilayers onto smooth and micropatterned titanium surfacesValverde A., Pérez-Álvarez L., Ruiz-Rubio L., Pacha Olivenza M.A., García Blanco M.B., Díaz-Fuentes M., Vilas-Vilela J.L. Carbohydrate Polymers, 207, 824, 833, (2019) |
Antibacterial multilayer of chitosan and (2-carboxyethyl)- β-cyclodextrin onto polylactic acid (PLLA)Andrade-Del Olmo J., Pérez-Álvarez L., Hernáez E., Ruiz-Rubio L., Vilas-Vilela J.L. Food Hydrocolloids, 88, 228, 236, (2019) |
Characterization and optimization of the alkaline hydrolysis of polyacrylonitrile membranesPérez-Álvarez L., Ruiz-Rubio L., Moreno I., Vilas-Vilela J.L. Polymers, 11, 11, 1843, (2019) |
Chitosan nanogels as nanocarriers of polyoxometalates for breast cancer therapiesPérez-Álvarez L., Ruiz-Rubio L., Artetxe B., Vivanco M.D., Gutiérrez-Zorrilla J.M., Vilas-Vilela J.L. Carbohydrate Polymers, 213, 159, 167, (2019) |
Development of multiactive antibacterial multilayers of hyaluronic acid and chitosan onto poly(ethylene terephthalate)Pérez-Álvarez L., Ruiz-Rubio L., Azua I., Benito V., Bilbao A., Vilas-Vilela J.L. European Polymer Journal, 112, 31, 37, (2019) |
Hydrolysis of poly(l-lactide)/ZnO nanocomposites with antimicrobial activityPérez-Álvarez L., Lizundia E., Ruiz-Rubio L., Benito V., Moreno I., Vilas-Vilela J.L. Journal of Applied Polymer Science, 136, 28, 47786, (2019) |
Self-healable hyaluronic acid/chitosan polyelectrolyte complex hydrogels and multilayersBarroso N., Guaresti O., Pérez-Álvarez L., Ruiz-Rubio L., Gabilondo N., Vilas-Vilela J.L. European Polymer Journal, 120, 109268, (2019) |
Stimuli responsive UV cured polyurethane acrylated/carbon nanotube composites for piezoresistive sensingMendes-Felipe C., Oliveira J., Costa P., Ruiz-Rubio L., Iregui A., González A., Vilas J.L., Lanceros-Mendez S. European Polymer Journal, 120, 109226, (2019) |
Synthesis and characterization of covalently crosslinked pH-responsive hyaluronic acid nanogels: Effect of synthesis parametersMaiz-Fernández S., Pérez-álvarez L., Ruiz-Rubio L., González R.P., Sáez-Martínez V., Pérez J.R., Vilas-Vilela J.L. Polymers, 11, 4, 742, (2019) |
The effect of the isomeric chlorine substitutions on the honeycomb-patterned films of poly(x-chlorostyrene)s/polystyrene blends and copolymers via static breath figure techniqueRuiz-Rubio L., Pérez-álvarez L., Sanchez-Bodón J., Arrighi V., Vilas-Vilela J.L. Materials, 12, 1, 167, (2019) |
TiO2-doped electrospun nanofibrous membrane for photocatalytic water treatmentBlanco M., Monteserín C., Angulo A., Pérez-Márquez A., Maudes J., Murillo N., Aranzabe E., Ruiz-Rubio L., Vilas J.L. Polymers, 11, 5, 747, (2019) |
Toward advanced functional systems: Honeycomb-like polymeric surfaces incorporating polyoxovanadates with surface-appended copper-cyclam complexesRuiz-Rubio L., Artetxe B., Pérez-Álvarez L., Martín-Caballero J., Ishihara T., Gutiérrez-Zorrilla J.M., Vilas-Vilela J.L. Molecules, 24, 12, 2313, (2019) |
Evaluation of postcuring process on the thermal and mechanical properties of the Clear02™ resin used in stereolithographyMendes-Felipe C., Patrocinio D., Laza J.M., Ruiz-Rubio L., Vilas-Vilela J.L. Polymer Testing, 72, 115, 121, (2018) |
Immobilization of polyoxometalates on tailored polymeric surfacesAguado-Ureta S., Rodríguez-Hernández J., del Campo A., Perez-Álvarez L., Ruiz-Rubio L., Vilas J.L., Artetxe B., Reinoso S., Gutiérrez-Zorrilla J.M. Nanomaterials, 8, 3, 142, (2018) |
Branched and ionic β-Cyclodextrins multilayer assembling onto polyacrylonitrile membranes for removal and controlled release of triclosanPérez-Álvarez L., Matas J., Gómez-Galván F., Ruiz-Rubio L., León L.M., Vilas-Vilela J.L. Carbohydrate Polymers, 156, 143, 151, (2017) |
Poly(l -lactide)/zno nanocomposites as efficient UV-shielding coatings for packaging applicationsLizundia E., Ruiz-Rubio L., Vilas J.L., León L.M. Journal of Applied Polymer Science, 133, 2, 42426, (2016) |
Preparation and characterization of soluble branched ionic β-cyclodextrins and their inclusion complexes with triclosanGómez-Galván F., Pérez-Álvarez L., Matas J., Álvarez-Bautista A., Poejo J., Duarte C.M., Ruiz-Rubio L., Vila-Vilela J.L., León L.M. Carbohydrate Polymers, 142, 149, 157, (2016) |
Solvent and relative humidity effect on highly ordered polystyrene honeycomb patterns analyzed by Voronoi tesselationRuiz-Rubio L., Azpitarte I., García-Huete N., Laza J.M., Vilas J.L., León L.M. Journal of Applied Polymer Science, 133, 39, APP44004, 9, (2016) |
Synthesis and characterization of near-infrared fluorescent and magnetic iron zero-valent nanoparticlesPérez N., Ruiz-Rubio L., Vilas J.L., Rodríguez M., Martinez-Martinez V., León L.M. Journal of Photochemistry and Photobiology A: Chemistry, 315, 1, 7, (2016) |
Towards the development of eco-friendly disposable polymers: ZnO-initiated thermal and hydrolytic degradation in poly(l-lactide)/ZnO nanocompositesLizundia E., Ruiz-Rubio L., Vilas J.L., León L.M. RSC Advances, 6, 19, 15660, 15669, (2016) |
Influence of N-alkyl and α-substitutions on the thermal behaviour of H-bonded interpolymer complexes based on polymers with acrylamide or lactame groups and poly(4-vinylphenol)Ruiz-Rubio L., Lizundia E., Vilas J.L., León L.M., Rodríguez M. Thermochimica Acta, 614, 191, 198, (2015) |
Influence of α-methyl substitutions on interpolymer complexes formation between poly(meth)acrylic acids and poly(N-isopropyl(meth)acrylamide)sRuiz-Rubio L., Álvarez V., Lizundia E., Vilas J.L., Rodríguez M., León L.M. Colloid and Polymer Science, 293, 5, 1447, 1455, (2015) |
Thermal behaviour of H-bonded interpolymer complexes based on polymers with acrylamide or lactame groups and poly(acrylic acid): Influence of N-alkyl and α-methyl substitutionsRuiz-Rubio L., Vilas J.L., Rodríguez M., León L.M. Polymer Degradation and Stability, 109, 147, 153, (2014) |
Covalent Cross-Linking as a Strategy to Prepare Water-Dispersible Chitosan NanogelsMuñana-González S., Veloso-Fernández A., Ruiz-Rubio L., Pérez-Álvarez L., Vilas-Vilela J.L. Polymers, 15, 2, 434, (2023) |
Hyaluronic acid-based hydrogel coatings on Ti6Al4V implantable biomaterial with multifunctional antibacterial activityAndrade del Olmo J., Alonso J.M., Sáez-Martínez V., Benito-Cid S., Pérez-González R., Vilas-Vilela J.L., Pérez-Álvarez L. Carbohydrate Polymers, 301, 120366, (2023) |
Silk Fibroin as Sustainable Advanced Material: Material Properties and Characteristics, Processing, and ApplicationsReizabal A., Costa C.M., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. Advanced Functional Materials, 33, 3, 2210764, (2023) |
Bioactive Coatings on Titanium: A Review on Hydroxylation, Self-Assembled Monolayers (SAMs) and Surface Modification StrategiesSánchez-Bodón J., Del Olmo J.A., Alonso J.M., Moreno-Benítez I., Vilas-Vilela J.L., Pérez-Álvarez L. Polymers, 14, 1, 165, (2022) |
Drug Delivery from Hyaluronic Acid–BDDE Injectable Hydrogels for Antibacterial and Anti-Inflammatory ApplicationsDel Olmo J.A., Pérez-álvarez L., Martínez V.S., Cid S.B., González R.P., Vilas-Vilela J.L., Alonso J.M. Gels, 8, 4, 223, (2022) |
Dynamic and Self-Healable Chitosan/Hyaluronic Acid-Based In Situ-Forming HydrogelsMaiz-Fernández S., Pérez-Álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Méndez S. Gels, 8, 8, 477, (2022) |
Effectiveness of physicochemical techniques on the activation of Ti6Al4V surface with improved biocompatibility and antibacterial propertiesAndrade del Olmo J., Alonso J.M., Ronco-Campaña A., Sáez-Martínez V., Pérez-González R., Rothnie A.J., Tighe B.J., Vilas-Vilela J.L., Pérez-Álvarez L. Surface and Coatings Technology, 447, 128821, (2022) |
Electro and magnetoactive printed bi-functional actuators based on alginate hybrid hydrogelsMaiz-Fernández S., Pérez-Álvarez L., de Munain-Arroniz I.L., Zoco A., Lopes A.C., Silván U., Salazar D., Vilas-Vilela J.L., Lanceros-Mendez S. International Journal of Biological Macromolecules, 219, 374, 383, (2022) |
Ionic liquid modified electroactive polymer-based microenvironments for tissue engineeringHermenegildo B., Meira R.M., Díez A.G., Correia D.M., Ribeiro S., Serra J.P., Ribeiro C., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. Polymer, 246, 124731, (2022) |
pH-Induced 3D Printable Chitosan Hydrogels for Soft ActuationMaiz-Fernández S., Pérez-álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Méndez S. Polymers, 14, 3, 650, (2022) |
Photocrosslinkable and self-healable hydrogels of chitosan and hyaluronic acidMaiz-Fernández S., Pérez-Álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Mendez S. International Journal of Biological Macromolecules, 216, 291, 302, (2022) |
Poly(lactic-co-glycolide) based biodegradable electrically and magnetically active microenvironments for tissue regeneration applicationsHermenegildo B., Meira R.M., Correia D.M., Díez A.G., Ribeiro S., Serra J.P., Ribeiro C., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. European Polymer Journal, 171, 111197, (2022) |
Self-healing, antibacterial and anti-inflammatory chitosan-PEG hydrogels for ulcerated skin wound healing and drug deliveryAndrade del Olmo J., Alonso J.M., Sáez-Martínez V., Benito-Cid S., Moreno-Benítez I., Bengoa-Larrauri M., Pérez-González R., Vilas-Vilela J.L., Pérez-Álvarez L. Biomaterials Advances, 139, 212992, (2022) |
Silk fibroin and sericin polymer blends for sustainable battery separatorsReizabal A., Fidalgo-Marijuan A., Gonçalves R., Gutiérrez-Pardo A., Aguesse F., Pérez-Álvarez L., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. Journal of Colloid and Interface Science, 611, 366, 376, (2022) |
Spontaneous Gelation of Adhesive Catechol Modified Hyaluronic Acid and ChitosanConejo-Cuevas G., Ruiz-Rubio L., Sáez-Martínez V., Pérez-González R., Gartziandia O., Huguet-Casquero A., Pérez-Álvarez L. Polymers, 14, 6, 1209, (2022) |
Wound healing and antibacterial chitosan-genipin hydrogels with controlled drug delivery for synergistic anti-inflammatory activityAndrade del Olmo J., Pérez-Álvarez L., Sáez-Martínez V., Benito-Cid S., Ruiz-Rubio L., Pérez-González R., Vilas-Vilela J.L., Alonso J.M. International Journal of Biological Macromolecules, 203, 679, 694, (2022) |
3D printable self-healing hyaluronic acid/chitosan polycomplex hydrogels with drug release capabilityMaiz-Fernández S., Barroso N., Pérez-Álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Mendez S. International Journal of Biological Macromolecules, 188, 820, 832, (2021) |
Antibacterial catechol-based hyaluronic acid, chitosan and poly (N-vinyl pyrrolidone) coatings onto Ti6Al4V surfaces for application as biomedical implantdel Olmo J.A., Pérez-Álvarez L., Pacha-Olivenza M.Á., Ruiz-Rubio L., Gartziandia O., Vilas-Vilela J.L., Alonso J.M. International Journal of Biological Macromolecules, 183, 1222, 1235, (2021) |
Biocompatible hyaluronic acid-divinyl sulfone injectable hydrogels for sustained drug release with enhanced antibacterial properties against Staphylococcus aureusAndrade del Olmo J., Alonso J.M., Sáez Martínez V., Ruiz-Rubio L., Pérez González R., Vilas-Vilela J.L., Pérez-Álvarez L. Materials Science and Engineering C, 125, 112102, (2021) |
Broadband dielectric response of silk Fibroin/BaTiO3 composites: Influence of nanoparticle size and concentrationCosta C.M., Reizabal A., Sabater i Serra R., Balado A.A., Pérez-Álvarez L., Gómez Ribelles J.L., Vilas-Vilela J.L., Lanceros-Méndez S. Composites Science and Technology, 213, 108927, (2021) |
Green alternative cosolvents toN-methyl-2-pyrrolidone in water polyurethane dispersionsGermán L., Cuevas J.M., Cobos R., Pérez-Alvarez L., Vilas-Vilela J.L. RSC Advances, 11, 31, 19070, 19075, (2021) |
Processing Strategies to Obtain Highly Porous Silk Fibroin Structures with Tailored Microstructure and Molecular Characteristics and Their Applicability in Water RemediationReizabal A., Costa C.M., Saiz P.G., Gonzalez B., Pérez-Álvarez L., Fernández de Luis R., Garcia A., Vilas-Vilela J.L., Lanceros-Méndez S. Journal of Hazardous Materials, 403, 123675, (2021) |
Tough hydrogels based on maleic anhydride, bulk properties study and microfiber formation by electrospinningBettahar F., Bekkar F., Pérez-Álvarez L., Ferahi M.I., Meghabar R., Vilas-Vilela J.L., Ruiz-Rubio L. Polymers, 13, 6, 972, (2021) |
Antibacterial chitosan electrostatic/covalent coating onto biodegradable poly (L-lactic acid)Andrade-Del Olmo J., Pérez-Álvarez L., Ruiz-Rubio L., Vilas-Vilela J.L. Food Hydrocolloids, 105, 105835, (2020) |
Antibacterial coatings for improving the performance of biomaterialsOlmo J.A.D., Ruiz-Rubio L., Pérez-Alvarez L., Sáez-Martínez V., Vilas-Vilela J.L. Coatings, 10, 2, 139, (2020) |
Biodegradable shape-memory polymersRuiz-Rubio L., Pérez-Álvarez L., Vilas-Vilela J.L. Advanced Structured Materials, 115, 219, 236, (2020) |
Dual charged folate labelled chitosan nanogels with enhanced mucoadhesion capacity for targeted drug deliveryGuaresti O., Maiz–Fernández S., Palomares T., Alonso–Varona A., Eceiza A., Pérez–Álvarez L., Gabilondo N. European Polymer Journal, 134, 109847, (2020) |
Lignin-based hydrogels: Synthesis and applicationsRico-García D., Ruiz-Rubio L., Pérez-Alvarez L., Hernández-Olmos S.L., Guerrero-Ramírez G.L., Vilas-Vilela J.L. Polymers, 12, 1, 81, (2020) |
Optically transparent silk fibroin/silver nanowire composites for piezoresistive sensing and object recognitionsReizabal A., Gonçalves S., Pereira N., Costa C.M., Pérez L., Vilas-Vilela J.L., Lanceros-Mendez S. Journal of Materials Chemistry C, 8, 37, 13053, 13062, (2020) |
Polyester-based biodegradable polymers for commoditiesRuiz-Rubio L., Sánchez-Bodón J., Moreno I., Pérez-Álvarez L., Vilas-Vilela J.L. Sustainability of Polymeric Materials, 135, 172, (2020) |
Polysaccharide-based in situ self-healing hydrogels for tissue engineering applicationsMaiz-Fernández S., Pérez-álvarez L., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Mendez S. Polymers, 12, 10, 2261, 1, 33, (2020) |
Silk Fibroin Based Magnetic Nanocomposites for Actuator ApplicationsReizabal A., Costa C.M., Pereira N., Pérez-Álvarez L., Vilas-Vilela J.-L., Lanceros-Méndez S. Advanced Engineering Materials, 22, 6, 2000111, (2020) |
Silk fibroin magnetoactive nanocomposite films and membranes for dynamic bone tissue engineering strategiesReizabal A., Brito-Pereira R., Fernandes M.M., Castro N., Correia V., Ribeiro C., Costa C.M., Perez L., Vilas J.L., Lanceros-Méndez S. Materialia, 12, 100709, (2020) |
Tailoring silk fibroin separator membranes pore size for improving performance of lithium ion batteriesReizabal A., Gonçalves R., Fidalgo-Marijuan A., Costa C.M., Pérez L., Vilas J.-L., Lanceros-Mendez S. Journal of Membrane Science, 598, 117678, (2020) |
β-Glycerol phosphate/genipin chitosan hydrogels: A comparative study of their properties and diclofenac deliveryMaiz-Fernández S., Guaresti O., Pérez-Álvarez L., Ruiz-Rubio L., Gabilondo N., Vilas-Vilela J.L., Lanceros-Mendez S. Carbohydrate Polymers, 248, 116811, (2020) |
Antibacterial hyaluronic acid/chitosan multilayers onto smooth and micropatterned titanium surfacesValverde A., Pérez-Álvarez L., Ruiz-Rubio L., Pacha Olivenza M.A., García Blanco M.B., Díaz-Fuentes M., Vilas-Vilela J.L. Carbohydrate Polymers, 207, 824, 833, (2019) |
Antibacterial multilayer of chitosan and (2-carboxyethyl)- β-cyclodextrin onto polylactic acid (PLLA)Andrade-Del Olmo J., Pérez-Álvarez L., Hernáez E., Ruiz-Rubio L., Vilas-Vilela J.L. Food Hydrocolloids, 88, 228, 236, (2019) |
Characterization and optimization of the alkaline hydrolysis of polyacrylonitrile membranesPérez-Álvarez L., Ruiz-Rubio L., Moreno I., Vilas-Vilela J.L. Polymers, 11, 11, 1843, (2019) |
Chitosan nanogels as nanocarriers of polyoxometalates for breast cancer therapiesPérez-Álvarez L., Ruiz-Rubio L., Artetxe B., Vivanco M.D., Gutiérrez-Zorrilla J.M., Vilas-Vilela J.L. Carbohydrate Polymers, 213, 159, 167, (2019) |
Development of multiactive antibacterial multilayers of hyaluronic acid and chitosan onto poly(ethylene terephthalate)Pérez-Álvarez L., Ruiz-Rubio L., Azua I., Benito V., Bilbao A., Vilas-Vilela J.L. European Polymer Journal, 112, 31, 37, (2019) |
Hydrogel-based magnetoelectric microenvironments for tissue stimulationHermenegildo B., Ribeiro C., Pérez-Álvarez L., Vilas J.L., Learmonth D.A., Sousa R.A., Martins P., Lanceros-Méndez S. Colloids and Surfaces B: Biointerfaces, 181, 1041, 1047, (2019) |
Hydrolysis of poly(l-lactide)/ZnO nanocomposites with antimicrobial activityPérez-Álvarez L., Lizundia E., Ruiz-Rubio L., Benito V., Moreno I., Vilas-Vilela J.L. Journal of Applied Polymer Science, 136, 28, 47786, (2019) |
Optimized silk fibroin piezoresistive nanocomposites for pressure sensing applications based on natural polymersReizabal A., Gonçalves S., Brito-Pereira R., Costa P., Costa C.M., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. Nanoscale Advances, 1, 6, 2284, 2292, (2019) |
Self-healable hyaluronic acid/chitosan polyelectrolyte complex hydrogels and multilayersBarroso N., Guaresti O., Pérez-Álvarez L., Ruiz-Rubio L., Gabilondo N., Vilas-Vilela J.L. European Polymer Journal, 120, 109268, (2019) |
Silk Fibroin Bending Actuators as an Approach Toward Natural Polymer Based Active MaterialsReizabal A., Correia D.M., Costa C.M., Perez-Alvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. ACS Applied Materials and Interfaces, 11, 33, 30197, 30206, (2019) |
Synthesis and characterization of covalently crosslinked pH-responsive hyaluronic acid nanogels: Effect of synthesis parametersMaiz-Fernández S., Pérez-álvarez L., Ruiz-Rubio L., González R.P., Sáez-Martínez V., Pérez J.R., Vilas-Vilela J.L. Polymers, 11, 4, 742, (2019) |
The effect of the isomeric chlorine substitutions on the honeycomb-patterned films of poly(x-chlorostyrene)s/polystyrene blends and copolymers via static breath figure techniqueRuiz-Rubio L., Pérez-álvarez L., Sanchez-Bodón J., Arrighi V., Vilas-Vilela J.L. Materials, 12, 1, 167, (2019) |
Toward advanced functional systems: Honeycomb-like polymeric surfaces incorporating polyoxovanadates with surface-appended copper-cyclam complexesRuiz-Rubio L., Artetxe B., Pérez-Álvarez L., Martín-Caballero J., Ishihara T., Gutiérrez-Zorrilla J.M., Vilas-Vilela J.L. Molecules, 24, 12, 2313, (2019) |
Immobilization of polyoxometalates on tailored polymeric surfacesAguado-Ureta S., Rodríguez-Hernández J., del Campo A., Perez-Álvarez L., Ruiz-Rubio L., Vilas J.L., Artetxe B., Reinoso S., Gutiérrez-Zorrilla J.M. Nanomaterials, 8, 3, 142, (2018) |
Silk fibroin-magnetic hybrid composite electrospun fibers for tissue engineering applicationsBrito-Pereira R., Correia D.M., Ribeiro C., Francesko A., Etxebarria I., Pérez-Álvarez L., Vilas J.L., Martins P., Lanceros-Mendez S. Composites Part B: Engineering, 141, 70, 75, (2018) |
Tailored biodegradable and electroactive poly(Hydroxybutyrate-co-hydroxyvalerate) based morphologies for tissue engineering applicationsAmaro L., Correia D.M., Marques-Almeida T., Martins P.M., Pérez L., Vilas J.L., Botelho G., Lanceros-Mendez S., Ribeiro C. International Journal of Molecular Sciences, 19, 8, 2149, (2018) |
Branched and ionic β-Cyclodextrins multilayer assembling onto polyacrylonitrile membranes for removal and controlled release of triclosanPérez-Álvarez L., Matas J., Gómez-Galván F., Ruiz-Rubio L., León L.M., Vilas-Vilela J.L. Carbohydrate Polymers, 156, 143, 151, (2017) |
Construction of antibacterial poly(ethylene terephthalate) films via layer by layer assembly of chitosan and hyaluronic acidDel Hoyo-Gallego S., Pérez-Álvarez L., Gómez-Galván F., Lizundia E., Kuritka I., Sedlarik V., Laza J.M., Vila-Vilela J.L. Carbohydrate Polymers, 143, 35, 43, (2016) |
Covalently and ionically crosslinked chitosan nanogels for drug deliveryPérez-Álvarez L., Laza J.M., Álvarez-Bautista A. Current Pharmaceutical Design, 22, 22, 3380, 3398, (2016) |
Physical aging and mechanical performance of poly(l-lactide)/ZnO nanocompositesLizundia E., Pérez-Álvarez L., Sáenz-Pérez M., Patrocinio D., Vilas J.L., León L.M. Journal of Applied Polymer Science, 133, 45, 43619, (2016) |
Poly(L-lactide)/branched β-cyclodextrin blends: Thermal, morphological and mechanical propertiesLizundia E., Gómez-Galván F., Pérez-Álvarez L., León L.M., Vilas J.L. Carbohydrate Polymers, 144, 25, 32, (2016) |
Preparation and characterization of soluble branched ionic β-cyclodextrins and their inclusion complexes with triclosanGómez-Galván F., Pérez-Álvarez L., Matas J., Álvarez-Bautista A., Poejo J., Duarte C.M., Ruiz-Rubio L., Vila-Vilela J.L., León L.M. Carbohydrate Polymers, 142, 149, 157, (2016) |
Efficient Magneto-Luminescent Nanosystems based on Rhodamine-Loaded Magnetite Nanoparticles with Optimized Heating Power and Ideal Thermosensitive FluorescenceCastellanos-Rubio I., Barón A., Luis-Lizarraga O., Rodrigo I., De Muro I.G., Orue I., Martínez-Martínez V., Castellanos-Rubio A., López-Arbeloa F., Insausti M. ACS Applied Materials and Interfaces (In Press) |
Synthesis and characterization of Fe—Co—V high magnetization nanoparticles obtained by physical routesVadillo V., Gutierrez J., Insausti M., Garitaonandia J.S., de Muro I.G., Quintana I., Barandiaran J.M. IEEE Magnetics Letters (In Press) |
FexCo1-x alloy nanoparticles: Synthesis, structure, magnetic characterization and magnetorheological applicationVadillo V., Insausti M., Gutiérrez J. Journal of Magnetism and Magnetic Materials, 563, 169975, (2022) |
Getting insight into how iron(III) oleate precursors affect the features of magnetite nanoparticlesNader K., Castellanos-Rubio I., Orue I., Iglesias-Rojas D., Barón A., Gil de Muro I., Lezama L., Insausti M. Journal of Solid State Chemistry, 316, 123619, (2022) |
Towards the design of contrast-enhanced agents: Systematic Ga3+doping on magnetite nanoparticlesGalarreta-Rodriguez I., Marcano L., Castellanos-Rubio I., Gil De Muro I., García I., Olivi L., Fernández-Gubieda M.L., Castellanos-Rubio A., Lezama L., De Larramendi I.R., Insausti M. Dalton Transactions, 51, 6, 2517, 2530, (2022) |
A Milestone in the Chemical Synthesis of Fe3O4Nanoparticles: Unreported Bulklike Properties Lead to a Remarkable Magnetic HyperthermiaCastellanos-Rubio I., Arriortua O., Iglesias-Rojas D., Barón A., Rodrigo I., Marcano L., Garitaonandia J.S., Orue I., Fdez-Gubieda M.L., Insausti M. Chemistry of Materials, 33, 22, 8693, 8704, (2021) |
Aspects concerning the fabrication of magnetorheological fluids containing high magnetization FeCo nanoparticlesGutiérrez J., Vadillo V., Gómez A., Berasategi J., Insausti M., Gil de Muro I., Bou-Ali M.M. Fluids, 6, 3, 132, (2021) |
High magnetization FeCo nanoparticles for magnetorheological fluids with enhanced responseVadillo V., Gómez A., Berasategi J., Gutiérrez J., Insausti M., Gil de Muro I., Garitaonandia J.S., Arbe A., Iturrospe A., Bou-Ali M.M., Barandiarán J.M. Soft Matter, 17, 4, 840, 852, (2021) |
Shaping up Zn-Doped Magnetite Nanoparticles from Mono- And Bimetallic Oleates- And Impact of Zn Content, Fe Vacancies, and Morphology on Magnetic Hyperthermia PerformanceCastellanos-Rubio I., Arriortua O., Marcano L., Rodrigo I., Iglesias-Rojas D., Barón A., Olazagoitia-Garmendia A., Olivi L., Plazaola F., Fdez-Gubieda M.L., Castellanos-Rubio A., Garitaonandia J.S., Orue I., Insausti M. Chemistry of Materials, 33, 9, 3139, 3154, (2021) |
Exploring the potential of the dynamic hysteresis loops via high field, high frequency and temperature adjustable AC magnetometer for magnetic hyperthermia characterizationRodrigo I., Castellanos-Rubio I., Garaio E., Arriortua O.K., Insausti M., Orue I., García J.Á., Plazaola F. International Journal of Hyperthermia, 37, 1, 976, 991, (2020) |
Highly Reproducible Hyperthermia Response in Water, Agar, and Cellular Environment by Discretely PEGylated Magnetite NanoparticlesCastellanos-Rubio I., Rodrigo I., Olazagoitia-Garmendia A., Arriortua O., Gil De Muro I., Garitaonandia J.S., Bilbao J.R., Fdez-Gubieda M.L., Plazaola F., Orue I., Castellanos-Rubio A., Insausti M. ACS Applied Materials and Interfaces, 12, 25, 27917, 27929, (2020) |
Mn-Doping level dependence on the magnetic response of MnxFe3- xO4 ferrite nanoparticlesLasheras X., Insausti M., De La Fuente J.M., Gil De Muro I., Castellanos-Rubio I., Marcano L., Fernández-Gubieda M.L., Serrano A., Martín-Rodríguez R., Garaio E., García J.A., Lezama L. Dalton Transactions, 48, 30, 11480, 11491, (2019) |
Outstanding heat loss via nano-octahedra above 20 nm in size: From wustite-rich nanoparticles to magnetite single-crystalsCastellanos-Rubio I., Rodrigo I., Munshi R., Arriortua O., Garitaonandia J.S., Martinez-Amesti A., Plazaola F., Orue I., Pralle A., Insausti M. Nanoscale, 11, 35, 16635, 16649, (2019) |
Exploring reaction conditions to improve the magnetic response of cobalt-doped ferrite nanoparticlesGalarreta I., Insausti M., de Muro I.G., de Larramendi I.R., Lezama L. Nanomaterials, 8, 2, 63, (2018) |
Multilayered inorganic-organic microdisks as ideal carriers for high magnetothermal actuation: Assembling ferrimagnetic nanoparticles devoid of dipolar interactionsCastellanos-Rubio I., Munshi R., Qin Y., Eason D.B., Orue I., Insausti M., Pralle A. Nanoscale, 10, 46, 21879, 21892, (2018) |
RGD-Functionalized Fe3O4 nanoparticles for magnetic hyperthermiaArriortua O.K., Insausti M., Lezama L., Gil de Muro I., Garaio E., de la Fuente J.M., Fratila R.M., Morales M.P., Costa R., Eceiza M., Sagartzazu-Aizpurua M., Aizpurua J.M. Colloids and Surfaces B: Biointerfaces, 165, 315, 324, (2018) |
Intra-particle chemical homogeneity determining the exchange coupling in palladium-iron nanoparticlesCastellanos-Rubio I., Insausti M., De Muro I.G., Arias-Duque D.C., Hernández-Garrido J.C., Lezama L. Journal of Applied Physics, 121, 8, 084302, (2017) |
Antitumor magnetic hyperthermia induced by RGD-functionalized Fe3O4 nanoparticles, in an experimental model of colorectal liver metastasesArriortua O.K., Garaio E., de la Parte B.H., Insausti M., Lezama L., Plazaola F., García J.A., Aizpurua J.M., Sagartzazu M., Irazola M., Etxebarria N., García-Alonso I., Saiz-López A., Echevarria-Uraga J.J. Beilstein Journal of Nanotechnology, 7, 1, 1532, 1542, (2016) |
Chemical Synthesis and Magnetic Properties of Monodisperse Nickel Ferrite Nanoparticles for Biomedical ApplicationsLasheras X., Insausti M., Gil De Muro I., Garaio E., Plazaola F., Moros M., De Matteis L., M. De La Fuente J., Lezama L. Journal of Physical Chemistry C, 120, 6, 3492, 3500, (2016) |
Tuning the size of palladium nanoparticles in organic and aqueous solutions: Influence of aminated and thiolated ligandsCastellanos-Rubio I., Insausti M., Gil De Muro I., Rojo T., Lezama L. Journal of Nanoscience and Nanotechnology, 16, 4, 4071, 4079, (2016) |
The impact of the chemical synthesis on the magnetic properties of intermetallic PdFe nanoparticlesCastellanos-Rubio I., Insausti M., de Muro I.G., Arias-Duque D.C., Hernández-Garrido J.C., Rojo T., Lezama L. Journal of Nanoparticle Research, 17, 5, 229, 13, (2015) |
Fe3O4 nanoparticles prepared by the seeded-growth route for hyperthermia: Electron magnetic resonance as a key tool to evaluate size distribution in magnetic nanoparticlesCastellanos-Rubio I., Insausti M., Garaio E., Gil De Muro I., Plazaola F., Rojo T., Lezama L. Nanoscale, 6, 13, 7542, 7552, (2014) |
I felt challenged by the interrelation of different disciplines very early on my career. I acquired competences in subjects as diverse as engineering with the design of a pilot-plant to obtain bioethanol (BSc Chemical engineering), nanomaterials with the use of graphene for gas separation membranes (MSc in Nanostructured materials) and lately physics and energy production with the study of interfaces for efficient perovskite solar cells (PhD).
As an eager learner, the execution of ROCHE project (Marie Curie GF), will advance not only my professional career but also contribute to my personal development as I will be working in a multidisciplinary environment in both, host institution, BCM, and partner organization, DU. My long-term objective is the formation and development of my own research group. For that, a strong knowledge of physics and engineering will help me identify the optimal interface structure to favoured ionic transport and design new configurations; which will provide a fundamental knowledge in this technology. During the execution of this fellowship, not only will I acquire technical capabilities and knowledge in the fields of the research, but also the necessary skills in order to increment my profile as a researcher. These skills are the following: management, both of research projects and people (young scientists at early research career stages); teamwork, as a member of an interacting scientific community and with the project collaborators; communication and dissemination of science, in conferences, papers and to a broad audience in general; and project leadership, needed when taking a project to a good end. The unique framework described above puts me in a perfect situation to broaden my expertise in the fields of study in ROCHE project, paving the road to reach professional maturity and helping me in my long-run science career aspirations, which are to become a group leader at a leading research institution. For that, I will be suitable to apply for national fellowships such as “Ramon y Cajal” and “Ikerbasque” and EU grants as ERC Stg.
Core-Shell Fe3O4@Au Nanorod-Loaded Gels for Tunable and Anisotropic Magneto- and PhotothermiaRincón-Iglesias M., Rodrigo I., Berganza L.B., Serea E.S.A., Plazaola F., Lanceros-Méndez S., Lizundia E., Reguera J. ACS Applied Materials and Interfaces, 14, 5, 7130, 7140, (2022) |
Magnetically active nanocomposites based on biodegradable polylactide, polycaprolactone, polybutylene succinate and polybutylene adipate terephthalateRincón-Iglesias M., Salado M., Lanceros-Mendez S., Lizundia E. Polymer, 249, 124804, (2022) |
Multicomponent magnetic nanoparticle engineering: the role of structure-property relationship in advanced applicationsDíez A.G., Rincón-Iglesias M., Lanceros-Méndez S., Reguera J., Lizundia E. Materials Today Chemistry, 26, 101220, (2022) |
Magnetic materials: A journey from finding north to an exciting printed futureMerazzo K.J., Lima A.C., Rincón-Iglesias M., Fernandes L.C., Pereira N., Lanceros-Mendez S., Martins P. Materials Horizons, 8, 10, 2654, 2684, (2021) |
Cellulose nanocrystal and water-soluble cellulose derivative based electromechanical bending actuatorsCorreia D.M., Lizundia E., Meira R.M., Rincón-Iglesias M., Lanceros-Méndez S. Materials, 13, 10, 2294, (2020) |
Combining cobalt ferrite and graphite with cellulose nanocrystals for magnetically active and electrically conducting mesoporous nanohybridsLizundia E., Rincón-Iglesias M., Lanceros-Méndez S. Carbohydrate Polymers, 236, 116001, (2020) |
Tailoring Electrical and Mechanical Properties of All-Natural Polymer Composites for Environmentally Friendlier ElectronicsRincón-Iglesias M., Lizundia E., Costa C.M., Lanceros-Méndez S. ACS Applied Polymer Materials, 2, 4, 1448, 1457, (2020) |
The role of CNC surface modification on the structural, thermal and electrical properties of poly(vinylidene fluoride) nanocompositesRincón-Iglesias M., Lizundia E., Correia D.M., Costa C.M., Lanceros-Méndez S. Cellulose, 27, 7, 3821, 3834, (2020) |
Water-based 2D printing of magnetically active cellulose derivative nanocompositesRincón-Iglesias M., Delgado A., Peřinka N., Lizundia E., Lanceros-Méndez S. Carbohydrate Polymers, 233, 115855, (2020) |
Water-Soluble Cellulose Derivatives as Suitable Matrices for Multifunctional MaterialsRincón-Iglesias M., Lizundia E., Lanceros-Méndez S. Biomacromolecules, 20, 7, 2786, 2795, (2019) |
A Novel Screen-Printed Textile Interface for High-Density Electromyography RecordingMurciego L.P., Komolafe A., Peřinka N., Nunes-Matos H., Junker K., Díez A.G., Lanceros-Méndez S., Torah R., Spaich E.G., Dosen S. Sensors, 23, 3, 1113, (2023) |
Influence of polymer matrix on the luminescence of phosphor based printable electroluminescent materials and devicesPolícia R., Correia D.M., Peřinka N., Tubio C.R., Lanceros-Méndez S. Polymer, 268, 125700, (2023) |
PEDOT:PSS-based screen-printable inks for H2O2 electrochemical detectionCampos-Arias L., del Olmo R., Peřinka N., Casado N., Vilas-Vilela J.L., Mecerreyes D., del Campo F.J., Lanceros-Méndez S. Electrochimica Acta, 439, 141615, (2023) |
Printable lightweight polymer-based energy harvesting systems: materials, processes, and applicationsRodrigues-Marinho T., Perinka N., Costa P., Lanceros-Mendez S. Materials Today Sustainability, 21, 100292, (2023) |
Design and Fabrication of Printed Human Skin Model Equivalent Circuit: A Tool for Testing Biomedical Electrodes without Human TrialsPeřinka N., Štrbac M., Kostić M., Malešević J., Castro N., Correia V., Lanceros-Méndez S. Advanced Engineering Materials, 24, 2, 2100684, (2022) |
Electroactive poly(vinylidene fluoride) electrospun fiber mats coated with polyaniline and polypyrrole for tissue regeneration applicationsHermenegildo B., Ribeiro C., Peřinka N., Martins P., Trchová M., Hajná M., Stejskal J., Lanceros-Méndez S. Reactive and Functional Polymers, 170, 105118, (2022) |
Environmentally Friendly Conductive Screen-Printable Inks Based on N-Doped Graphene and PolyvinylpyrrolidoneFranco M., Motealleh A., Costa C.M., Hilliou L., Perinka N., Ribeiro C., Viana J.C., Costa P., Lanceros-Mendez S. Advanced Engineering Materials, 24, 6, 2101258, (2022) |
Printed 3D Gesture Recognition Thermoformed Half Sphere Compatible with In-Mold Electronic ApplicationsGomes Correia V.M., Pereira N., Perinka N., Costa P., del Campo J., Lanceros-Mendez S. Advanced Engineering Materials, 24, 12, 2200730, (2022) |
Silver Nanoparticles for Conductive Inks: From Synthesis and Ink Formulation to Their Use in Printing TechnologiesZhang J., Ahmadi M., Fargas G., Perinka N., Reguera J., Lanceros-Méndez S., Llanes L., Jiménez-Piqué E. Metals, 12, 2, 234, (2022) |
Toward Next-Generation Mobile Diagnostics: Near-Field Communication-Powered Electrochemiluminescent DetectionTotoricaguena-Gorriño J., Dei M., Alba A.F., Peřinka N., Rubio L.-R., Vilas-Vilela J.L., Del Campo F.J. ACS Sensors, 7, 5, 1544, 1554, (2022) |
All-Printed Smart Label with Integrated Humidity Sensors and Power SupplyPereira N., Correia V., Peřinka N., Costa C.M., Lanceros-Méndez S. Advanced Engineering Materials, 23, 3, 2001229, (2021) |
Capacitive and illumination systems based on printed and hybrid electronicsPeřinka N., Pozo B., Fernández De Gorostiza E., Mendes-Felipe C., Vilas-Vilela J.L., Lanceros-Méndez S. Flexible and Printed Electronics, 6, 1, 015004, (2021) |
Laser-induced highly oriented pyrolytic graphite for high-performance screen-printed electrodesAlba A.F., Totoricaguena-Gorrino J., Campos-Arias L., Peřinka N., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Méndez S., Del Campo F.J. Materials Advances, 2, 18, 5912, 5921, (2021) |
Printed Capacitive Sensors Based on Ionic Liquid/Metal-Organic Framework Composites for Volatile Organic Compounds DetectionFernandez E., G. Saiz P., Peřinka N., Wuttke S., Fernández de Luis R. Advanced Functional Materials, 31, 25, 2010703, (2021) |
Advances in thermochromic and thermoelectric materialsShalan A.E., Perinka N., Serea E.S.A., Sanad M.F. Advanced Lightweight Multifunctional Materials, 153, 186, (2020) |
All-printed piezoresistive sensor matrix with organic thin-film transistors as a switch for crosstalk reductionCorreia V., Oliveira J., Perinka N., Costa P., Sowade E., Mitra K.Y., Baumann R.R., Lanceros-Mendez S. ACS Applied Electronic Materials, 2, 5, 1470, 1477, (2020) |
Magnetic proximity sensor based on magnetoelectric composites and printed coilsPereira N., Lima A.C., Correia V., Perinka N., Lanceros-Mendez S., Martins P. Materials, 13, 7, 1729, (2020) |
Reconfigurable 3D-printable magnets with improved maximum energy productBrito-Pereira R., Ribeiro C., Peřinka N., Lanceros-Mendez S., Martins P. Journal of Materials Chemistry C, 8, 3, 952, 958, (2020) |
Spray-printed magnetoelectric multifunctional compositesMartins P., Nunes J.S., Oliveira J., Peřinka N., Lanceros-Mendez S. Composites Part B: Engineering, 187, 107829, (2020) |
Water-based 2D printing of magnetically active cellulose derivative nanocompositesRincón-Iglesias M., Delgado A., Peřinka N., Lizundia E., Lanceros-Méndez S. Carbohydrate Polymers, 233, 115855, (2020) |
Water-Based Graphene Inks for All-Printed Temperature and Deformation SensorsFranco M., Alves R., Perinka N., Tubio C., Costa P., Lanceros-Mendéz S. ACS Applied Electronic Materials, 2, 9, 2857, 2867, (2020) |
Mastering a 1.2 K hysteresis for martensitic para-ferromagnetic partial transformation in Ni-Mn(Cu)-Ga magnetocaloric material via binder jet 3D printingStevens E., Kimes K., Salazar D., Mostafaei A., Rodriguez R., Acierno A., Lázpita P., Chernenko V., Chmielus M. Additive Manufacturing, 37, 101560, (2021) |
Neutron scattering as a powerful tool to investigate magnetic shape memory alloys: A reviewRío‐lópez N.A., Lázpita P., Salazar D., Petrenko V.I., Plazaola F., Chernenko V., Porro J.M. Metals, 11, 5, 829, (2021) |
Suppression of martensitic transformation in Ni-Mn-In metamagnetic shape memory alloy under very strong magnetic fieldLázpita P., Pérez-Checa A., Barandiarán J.M., Ammerlaan A., Zeitler U., Chernenko V. Journal of Alloys and Compounds, 874, 159814, (2021) |
Temperature dependent stress–strain behavior and martensite stabilization in magnetic shape memory ni51.1 fe16.4 ga26.3 co6.2 single crystalLázpita P., Villa E., Villa F., Chernenko V. Metals, 11, 6, 920, (2021) |
Combinatorial synthesis of Ni–Mn–Ga-(Fe,Co,Cu) high temperature ferromagnetic shape memory alloys thin filmsAlexandrakis V., Barandiaran J.M., Pérez-Checa A., Lázpita P., Decker P., Salomon S., Feuchtwanger J., Ludwig A., Chernenko V. Scripta Materialia, 178, 104, 107, (2020) |
Combined effect of magnetic field and hydrostatic pressure on the phase transitions exhibited by Ni-Mn-In metamagnetic shape memory alloyLázpita P., L'vov V.A., Fernández J.R., Barandiarán J.M., Chernenko V.A. Acta Materialia, 193, 1, 9, (2020) |
Martensitic transformation and structural states in Ni44.0Mn43.5Sn12.5-xAlx (x = 1, 2, 3 at.%) magnetic shape memory alloys prepared by vacuum hot pressingVilla E., Maziarz W., Wójcik A., Nespoli A., Lázpita P., Hosoda H., Chernenko V. Journal of Alloys and Compounds, 847, 156315, (2020) |
Role of Fe addition in Ni–Mn–Ga–Co–Cu–Fe ferromagnetic shape memory alloys for high-temperature magnetic actuationPérez-Checa A., Porro J.M., Feuchtwanger J., Lázpita P., Hansen T.C., Mondelli C., Sozinov A., Barandiarán J.M., Ullakko K., Chernenko V. Acta Materialia, 196, 549, 555, (2020) |
Effect of Fe doping and magnetic field on martensitic transformation of Mn-Ni(Fe)-Sn metamagnetic shape memory alloysLázpita P., Sasmaz M., Barandiarán J.M., Chernenko V.A. Acta Materialia, 155, 95, 103, (2018) |
Magnetocaloric Effect in Specially Designed MaterialsSalazar-Jaramillo D., Álvarez-Alonso P., Lázpita P., Sánchez Llamazares J.L., Gorría P., Blanco J.A., Chernenko V.A. Magnetic Nanostructured Materials: From Lab to Fab, 199, 244, (2018) |
Magnetovolume coupling in transformation behaviour of Mn-Ni-Sn metamagnetic shape memory alloysL'Vov V.A., Lazpita P., Barandiaran J.M., Chernenko V.A. Journal of Physics D: Applied Physics, 51, 35, 355001, (2018) |
Probing Structural and Magnetic Instabilities and Hysteresis in Heuslers by Density Functional Theory CalculationsEntel P., Gruner M.E., Fähler S., Acet M., Çahır A., Arróyave R., Sahoo S., Duong T.C., Talapatra A., Sandratskii L., Mankowsky S., Gottschall T., Gutfleisch O., Lázpita P., Chernenko V.A., Barandiaran J.M., Sokolovskiy V.V., Buchelnikov V.D. Physica Status Solidi (B) Basic Research, 255, 2, 1700296, (2018) |
Polarized Neutron Study of Ni-Mn-Ga Alloys: Site-Specific Spin Density Affected by Martensitic TransformationLázpita P., Barandiarán J.M., Gutiérrez J., Mondelli C., Sozinov A., Chernenko V.A. Physical Review Letters, 119, 15, 155701, (2017) |
Magnetic and conventional shape memory behavior of Mn-Ni-Sn and Mn-Ni-Sn(Fe) alloysTurabi A.S., Lázpita P., Sasmaz M., Karaca H.E., Chernenko V.A. Journal of Physics D: Applied Physics, 49, 20, 205002, (2016) |
Martensitic transformation and magnetic field induced effects in Ni42Co8Mn39Sn11 metamagnetic shape memory alloyLázpita P., Sasmaz M., Cesari E., Barandiarán J.M., Gutiérrez J., Chernenko V.A. Acta Materialia, 109, 170, 176, (2016) |
Magnetic analysis of martensitic and austenitic phases in metamagnetic NiMn(In, Sn) alloysLázpita P., Escolar J., Chernenko V.A., Barandiarán J.M. Journal of Alloys and Compounds, 644, 883, 887, (2015) |
Simple set-up for adiabatic measurements of magnetocaloric effectÁlvarez-Alonso P., López-García J., Daniel-Perez G., Salazar D., Lázpita P., Camarillo J.P., Flores-Zuñiga H., Rios-Jara D., Sánchez-Llamazares J.L., Chernenko V.A. Key Engineering Materials, 644, 215, 218, (2015) |
Competition of Magnetic Anisotropies in Permalloy Antidot LatticesPorro J.M., Villar A., Redondo C., Río-López N.A., Lasheras A., Salazar D., Morales R., Fernández-Martín E. Magnetochemistry, 8, 5, 55, (2022) |
Magneto Twister: Magneto Deformation of the Water-Air Interface by a Superhydrophobic Magnetic Nanoparticle LayerGunatilake U.B., Morales R., Basabe-Desmonts L., Benito-Lopez F. Langmuir, 38, 11, 3360, 3369, (2022) |
Role of the antiferromagnetic bulk spins in exchange biasSchuller I.K., Morales R., Batlle X., Nowak U., Güntherodt G. Journal of Magnetism and Magnetic Materials, 416, 2, 9, (2016) |
A State-of-the-Art of Metal-Organic Frameworks for Chromium Photoreduction vs. Photocatalytic Water RemediationGarcía A., Rodríguez B., Rosales M., Quintero Y.M., G. Saiz P., Reizabal A., Wuttke S., Celaya-Azcoaga L., Valverde A., Fernández de Luis R. Nanomaterials, 12, 23, 4263, (2022) |
Designing Metal-Chelator-like Traps by Encoding Amino Acids in Zirconium-Based Metal-Organic FrameworksValverde A., Tovar G.I., Rio-López N.A., Torres D., Rosales M., Wuttke S., Fidalgo-Marijuan A., Porro J.M., Jiménez-Ruiz M., García Sakai V., García A., Laza J.M., Vilas-Vilela J.L., Lezama L., Arriortua M.I., Copello G.J., Fernández De Luis R. Chemistry of Materials, 34, 21, 9666, 9684, (2022) |
Editorial: Design of Functional Nanostructured Polymer Materials: Synthesis, Characterization and ApplicationsÁlvarez V.A., Copello G.J., Fernández de Luis R., Molina A.I., Lázaro-Martínez J.M. Frontiers in Chemistry, 10, 923054, (2022) |
Exploring ionic liquid-laden metal-organic framework composite materials as hybrid electrolytes in metal (ion) batteriesUrgoiti-Rodriguez M., Vaquero-Vílchez S., Mirandona-Olaeta A., Fernández de Luis R., Goikolea E., Costa C.M., Lanceros-Mendez S., Fidalgo-Marijuan A., Ruiz de Larramendi I. Frontiers in Chemistry, 10, 995063, (2022) |
Magnetoelastic Resonance Sensors: Principles, Applications, and PerspectivesSaiz P.G., Fernández De Luis R., Lasheras A., Arriortua M.I., Lopes A.C. ACS Sensors, 7, 5, 1248, 1268, (2022) |
Metal organic framework modified poly(vinylidene fluoride-co-hexafluoropropylene) separator membranes to improve lithium-ion battery capacity fadingBarbosa J.C., Gonçalves R., Valverde A., Martins P.M., Petrenko V.I., Márton M., Fidalgo-Marijuan A., Fernández de Luis R., Costa C.M., Lanceros-Méndez S. Chemical Engineering Journal, 443, 136329, (2022) |
Multivariate Functionalization of UiO-66 for Photocatalytic Water RemediationValverde A., Payno D., Lezama L., Laza J.M., Wuttke S., Fernández de Luis R. Advanced Sustainable Systems, 6, 7, 2200024, (2022) |
Reusable composite membranes for highly efficient chromium removal from real water matrixesQueirós J.M., Salazar H., Valverde A., Botelho G., Fernández de Luis R., Teixeira J., Martins P.M., Lanceros-Mendez S. Chemosphere, 307, 135922, (2022) |
Reusable Nanocomposite Membranes for Highly Efficient Arsenite and Arsenate Dual Removal from WaterSalazar H., Martins P.M., Valverde A., Fernández de Luis R., Vilas-Vilela J.L., Ferdov S., Botelho G., Lanceros-Mendez S. Advanced Materials Interfaces, 9, 10, 2101419, (2022) |
Understanding electrogenerated chemiluminescence at graphite screen-printed electrodesAlba A.F., Fernández-de Luis R., Totoricaguena-Gorriño J., Ruiz-Rubio L., Sánchez J., Vilas-Vilela J.L., Lanceros-Méndez S., del Campo F.J. Journal of Electroanalytical Chemistry, 914, 116331, (2022) |
Chitin/Metal-Organic Framework Composites as Wide-Range AdsorbentTovar Jimenez G.I., Valverde A., Mendes-Felipe C., Wuttke S., Fidalgo-Marijuan A., Larrea E.S., Lezama L., Zheng F., Reguera J., Lanceros-Méndez S., Arriortua M.I., Copello G., de Luis R.F. ChemSusChem, 14, 14, 2892, 2901, (2021) |
Evaluating the bi-functional capacity for arsenic photo-oxidation and adsorption on anatase TiO2 nanostructures with tunable morphologyRosales M., Orive J., Espinoza-González R., Fernández de Luis R., Gauvin R., Brodusch N., Rodríguez B., Gracia F., García A. Chemical Engineering Journal, 415, 128906, (2021) |
Influence of the magnetic domain structure in the mass sensitivity of magnetoelastic sensors with different geometriesSaiz P.G., Porro J.M., Lasheras A., Fernández de Luis R., Quintana I., Arriortua M.I., Lopes A.C. Journal of Alloys and Compounds, 863, 158555, (2021) |
Modulation of the bifunctional CrVI to CrIII photoreduction and adsorption capacity in ZrIV and TiIV benchmark metal-organic frameworksSaiz P.G., Valverde A., Gonzalez-Navarrete B., Rosales M., Quintero Y.M., Fidalgo-Marijuan A., Orive J., Reizabal A., Larrea E.S., Arriortua M.I., Lanceros-Méndez S., García A., de Luis R.F. Catalysts, 11, 1, 51, 1, 14, (2021) |
Printed Capacitive Sensors Based on Ionic Liquid/Metal-Organic Framework Composites for Volatile Organic Compounds DetectionFernandez E., G. Saiz P., Peřinka N., Wuttke S., Fernández de Luis R. Advanced Functional Materials, 31, 25, 2010703, (2021) |
Processing Strategies to Obtain Highly Porous Silk Fibroin Structures with Tailored Microstructure and Molecular Characteristics and Their Applicability in Water RemediationReizabal A., Costa C.M., Saiz P.G., Gonzalez B., Pérez-Álvarez L., Fernández de Luis R., Garcia A., Vilas-Vilela J.L., Lanceros-Méndez S. Journal of Hazardous Materials, 403, 123675, (2021) |
Chromium Speciation in Zirconium-Based Metal–Organic Frameworks for Environmental RemediationSaiz P.G., Iglesias N., González Navarrete B., Rosales M., Quintero Y.M., Reizabal A., Orive J., Fidalgo Marijuan A., Larrea E.S., Lopes A.C., Lezama L., García A., Lanceros-Mendez S., Arriortua M.I., Fernández de Luis R. Chemistry - A European Journal, 26, 61, 13861, 13872, (2020) |
Encapsulation of β-alanine model amino-acid in zirconium(IV) metal organic frameworks: Defect engineering to improve host guest interactionsMuguruza A.R., de Luis R.F., Iglesias N., Bazán B., Urtiaga M.-K., Larrea E.S., Fidalgo-Marijuan A., Barandika G. Journal of Inorganic Biochemistry, 205, 110977, (2020) |
Enhanced chitin gel with magnetic nanofiller for lysozyme purificationTovar G.I., Fernández de Luis R., Arriortua M.I., Wolman F.J., Copello G.J. Journal of Industrial and Engineering Chemistry, 88, 90, 98, (2020) |
Exploring new hydrated delta type vanadium oxides for lithium intercalationOrive J., Fernández De Luis R., Larrea E.S., Martínez-Amesti A., Altomare A., Rizzi R., Lezama L., Arriortua M.I., Gómez-Cámer J.L., Jauregui M., Casas-Cabanas M., Lisoni J. Dalton Transactions, 49, 12, 3856, 3868, (2020) |
Metal-Organic Framework Based PVDF Separators for High Rate Cycling Lithium-Ion BatteriesValverde A., Gonçalves R., Silva M.M., Wuttke S., Fidalgo-Marijuan A., Costa C.M., Vilas-Vilela J.L., Laza J.M., Arriortua M.I., Lanceros-Méndez S., Fernández De Luis R. ACS Applied Energy Materials, 3, 12, 11907, 11919, (2020) |
Rhombic-magnetoelastic/metal-organic framework functionalized resonators for highly sensitive toluene detectionSaiz P.G., De Luis R.F., Bartolome L., Gutiérrez J., Arriortua M.I., Lopes A.C. Journal of Materials Chemistry C, 8, 39, 13743, 13753, (2020) |
Study of the versatility of CuBTC@IL-derived materials for heterogeneous catalysisLarrea E.S., Fernández de Luis R., Fidalgo-Marijuan A., Maya E.M., Iglesias M., Arriortua M.I. CrystEngComm, 22, 17, 2904, 2913, (2020) |
pH and ion-selective swelling behaviour of keratin and keratose 3D hydrogelsGalaburri G., Peralta Ramos M.L., Lázaro-Martínez J.M., Fernández de Luis R., Arriortua M.I., Villanueva M.E., Copello G.J. European Polymer Journal, 118, 1, 9, (2019) |
Thermal activation of charge carriers in ionic and electronic semiconductor β-AgIVVO3 and β-AgIVVO3@VV1.6VIV0.4O4.8 composite xerogelsFernández De Luis R., Larrea E.S., Orive J., Lezama L., Costa C.M., Lanceros-Méndez S., Arriortua M.I. RSC Advances, 9, 72, 42439, 42449, (2019) |
Ionic liquids for the control of the morphology in poly(vinylidene fluoride-co-hexafluoropropylene) membranesGSaiz P., Lopes A.C., Eizagirre Barker S., Fernández de Luis R., Arriortua M.I. Materials and Design, 155, 325, 333, (2018) |
Open and closed forms of the interpenetrated [Cu2(Tae)(Bpa)2](NO3)2·: N H2O: Magnetic properties and high pressure CO2/CH4 gas sorptionFernández De Luis R., Larrea E.S., Orive J., Fidalgo-Marijuan A., Lezama L., Arriortua M.I. Dalton Transactions, 47, 3, 958, 970, (2018) |
Ax(H3O)2-xMn5(HPO3)6 (A = Li, Na, K and NH4): Open-framework manganese(II) phosphites templated by mixed cationic speciesOrive J., Fernández De Luis R., Fernández J.R., Lezama L., Arriortua M.I. Dalton Transactions, 45, 30, 12188, 12199, (2016) |
Catalytic performance of a new 1D Cu(II) coordination polymer {Cu(NO3)(H2O)}(HTae)(4,4'-Bpy) for Knoevenagel condensationLarrea E.S., De Luis R.F., Arriortua M.I. Molecules, 21, 12, 21121651, (2016) |
Commensurate superstructure of the {Cu(NO3)(H2O)}(HTae)(Bpy) coordination polymer: An example of 2D hydrogen-bonding networks as magnetic exchange pathwayFernández De Luis R., Larrea E.S., Orive J., Lezama L., Arriortua M.I. Inorganic Chemistry, 55, 22, 11662, 11675, (2016) |
On the mineral core of ferritin-like proteins: Structural and magnetic characterizationGarcía-Prieto A., Alonso J., Muñoz D., Marcano L., Abad Díaz De Cerio A., Fernández De Luis R., Orue I., Mathon O., Muela A., Fdez-Gubieda M.L. Nanoscale, 8, 2, 1088, 1099, (2016) |
Composite β-AgVO3@V1.65+V0.44+O4.8 hydrogels and xerogels for iodide captureFernández De Luis R., Martínez-Amesti A., Larrea E.S., Lezama L., Aguayo A.T., Arriortua M.I. Journal of Materials Chemistry A, 3, 39, 19996, 20012, (2015) |
Mixed Metal-Organic Framework as a Heterogeneous CatalystLarrea E.S., Fernández De Luis R., Orive J., Iglesias M., Arriortua M.I. European Journal of Inorganic Chemistry, 2015, 28, 4699, 4707, (2015) |
Water-induced phase transformation of a CuII coordination framework with pyridine-2,5-dicarboxylate and di-2-pyridyl ketone: synchrotron radiation analysisLlano-Tomé F., Bazán B., Urtiaga M.K., Barandika G., Fidalgo-Marijuan A., Fernández De Luis R., Arriortua M.I. CrystEngComm, 17, 33, 6346, 6354, (2015) |
Hybrid vanadates constructed from extended metal-organic arrays: Crystal architectures and propertiesDe Luis R.F., Orive J., Larrea E.S., Karmele Urtiaga M., Arriortua M.I. CrystEngComm, 16, 45, 10332, 10366, (2014) |
Development of Silk Fibroin Scaffolds for Vascular RepairDurán-Rey D., Brito-Pereira R., Ribeiro C., Ribeiro S., Sánchez-Margallo J.A., Crisóstomo V., Irastorza I., Silván U., Lanceros-Méndez S., Sánchez-Margallo F.M. Biomacromolecules (In Press) |
Electroactive Smart Materials for Neural Tissue RegenerationPinho T.S., Cunha C.B., Lanceros-Méndez S., Salgado A.J. ACS Applied Bio Materials (In Press) |
Electrohydrodynamic 3D Printing of Aqueous SolutionsReizabal A., Tandon B., Lanceros-Méndez S., Dalton P.D. Small (In Press) |
Humidity Sensors Based on Magnetic Ionic Liquids Blended in Poly(vinylidene fluoride- co-hexafluoropropylene)Serra J.P., Fernandes L.C., Pereira N., Fidalgo-Marijuan A., Porro J.M., Costa C.M., Correia D.M., Lanceros-Mendez S. ACS Applied Polymer Materials (In Press) |
A Novel Screen-Printed Textile Interface for High-Density Electromyography RecordingMurciego L.P., Komolafe A., Peřinka N., Nunes-Matos H., Junker K., Díez A.G., Lanceros-Méndez S., Torah R., Spaich E.G., Dosen S. Sensors, 23, 3, 1113, (2023) |
Acrylonitrile Butadiene Styrene-Based Composites with Permalloy with Tailored Magnetic ResponseMerazzo K.J., Díez A.G., Tubio C.R., Manchado J.C., Malet R., Pérez M., Costa P., Lanceros-Mendez S. Polymers, 15, 3, 626, (2023) |
Beeswax multifunctional composites with thermal-healing capability and recyclabilityBrito-Pereira R., Ribeiro C., Tubio C.R., Castro N., Costa P., Lanceros-Mendez S. Chemical Engineering Journal, 453, 139840, (2023) |
Enhanced neuronal differentiation by dynamic piezoelectric stimulationPinho T.S., Silva D., Ribeiro J.C., Marote A., Lima R., Batista S.J., Melo R., Ribeiro C., Cunha C.B., Moreira I.S., Lanceros-Mendez S., Salgado A.J. Journal of Biomedical Materials Research - Part A, 111, 1, 35, 44, (2023) |
Hybrid TiO2:Au nanostars based polymeric membranes for photocatalytic degradation of ciprofloxacin in water samplesZheng F., Martins P.M., Queirós J.M., Tavares C.J., Vilas-Vilela J.L., Lanceros-Méndez S., Reguera J. Chemosphere, 313, 137630, (2023) |
Influence of polymer matrix on the luminescence of phosphor based printable electroluminescent materials and devicesPolícia R., Correia D.M., Peřinka N., Tubio C.R., Lanceros-Méndez S. Polymer, 268, 125700, (2023) |
Magnetically responsive chitosan-pectin films incorporating Fe3O4 nanoparticles with enhanced antimicrobial activityZarandona I., Correia D.M., Moreira J., Costa C.M., Lanceros-Mendez S., Guerrero P., de la Caba K. International Journal of Biological Macromolecules, 227, 1070, 1077, (2023) |
Next generation 2D materials for anodes in battery applicationsKumar M.R., Singh S., Fahmy H.M., Jaiswal N.K., Akin S., Shalan A.E., Lanceros-Mendez S., Salado M. Journal of Power Sources, 556, 232256, (2023) |
PEDOT:PSS-based screen-printable inks for H2O2 electrochemical detectionCampos-Arias L., del Olmo R., Peřinka N., Casado N., Vilas-Vilela J.L., Mecerreyes D., del Campo F.J., Lanceros-Méndez S. Electrochimica Acta, 439, 141615, (2023) |
Printable lightweight polymer-based energy harvesting systems: materials, processes, and applicationsRodrigues-Marinho T., Perinka N., Costa P., Lanceros-Mendez S. Materials Today Sustainability, 21, 100292, (2023) |
Silk Fibroin as Sustainable Advanced Material: Material Properties and Characteristics, Processing, and ApplicationsReizabal A., Costa C.M., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. Advanced Functional Materials, 33, 3, 2210764, (2023) |
Synthesis and characterization of cellulose, β-cyclodextrin, silk fibroin-based hydrogel containing copper-doped cobalt ferrite nanospheres and exploration of its biocompatibilityEivazzadeh-Keihan R., Ganjali F., Aliabadi H.A.M., Maleki A., Pouri S., Mahdavi M., Shalan A.E., Lanceros-Méndez S. Journal of Nanostructure in Chemistry, 13, 1, 103, 113, (2023) |
Three-Component Solid Polymer Electrolytes Based on Li-Ion Exchanged Microporous Silicates and an Ionic Liquid for Solid-State BatteriesBarbosa J.C., Correia D.M., Salado M., Gonçalves R., Ferdov S., de Zea Bermudez V., Costa C.M., Lanceros-Mendez S. Advanced Engineering Materials, 25, 2, 2200849, (2023) |
3D-printed carrageenan-based nanocomposites for sustainable resistive sensing devicesMacedo V.M., Pereira N., Tubio C.R., Martins P., Lanceros-Mendez S., Costa C.M. Polymer, 262, 125456, (2022) |
A review on 2D-ZnO nanostructure based biosensors: from materials to devicesKrishna M.S., Singh S., Batool M., Fahmy H.M., Seku K., Shalan A.E., Lanceros-Mendez S., Zafar M.N. Materials Advances, 4, 2, 320, 354, (2022) |
Bio-Based Piezo- and Thermoresistive Photocurable Sensing Materials from Acrylated Epoxidized Soybean OilMendes-Felipe C., Costa P., Roppolo I., Sangermano M., Lanceros-Mendez S. Macromolecular Materials and Engineering, 307, 7, 2100934, (2022) |
Biodegradable polymer-based microfluidic membranes for sustainable point-of-care devicesBrito-Pereira R., Ribeiro C., Lanceros-Méndez S., Fernandes Cardoso V. Chemical Engineering Journal, 448, 137639, (2022) |
Carrageenan based printable magnetic nanocomposites for actuator applicationsMacedo V.M., Pereira N., Tubio C.R., Martins P., Costa C.M., Lanceros-Mendez S. Composites Science and Technology, 224, 109485, (2022) |
Carrageenan-Based Hybrid Materials with Ionic Liquids for Sustainable and Recyclable Printable Pressure SensorsSerra J.P., Pereira N., Correia D.M., Tubio C.R., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. ACS Sustainable Chemistry and Engineering, 10, 26, 8631, 8640, (2022) |
Comparative performance and ecotoxicity assessment of Y2(CO3)3, ZnO/TiO2, and Fe3O4 nanoparticles for arsenic removal from waterSalazar H., Martins P.M., Batista D., Shejale K.P., Sharma R.K., Krishnapriya R., Ferdov S., Botelho G., Fidalgo-Marijuan A., Cássio F., Lanceros-Mendez S. Environmental Science: Water Research and Technology, 8, 8, 1719, 1730, (2022) |
Core-Shell Fe3O4@Au Nanorod-Loaded Gels for Tunable and Anisotropic Magneto- and PhotothermiaRincón-Iglesias M., Rodrigo I., Berganza L.B., Serea E.S.A., Plazaola F., Lanceros-Méndez S., Lizundia E., Reguera J. ACS Applied Materials and Interfaces, 14, 5, 7130, 7140, (2022) |
Design and Fabrication of Printed Human Skin Model Equivalent Circuit: A Tool for Testing Biomedical Electrodes without Human TrialsPeřinka N., Štrbac M., Kostić M., Malešević J., Castro N., Correia V., Lanceros-Méndez S. Advanced Engineering Materials, 24, 2, 2100684, (2022) |
Development and evaluation of different electroactive poly(vinylidene fluoride) architectures for endothelial cell cultureDurán-Rey D., Brito-Pereira R., Ribeiro C., Ribeiro S., Sánchez-Margallo J.A., Crisóstomo V., Irastorza I., Silván U., Lanceros-Méndez S., Sánchez-Margallo F.M. Frontiers in Bioengineering and Biotechnology, 10, 1044667, (2022) |
Development and magnetocaloric properties of Ni(Co)-Mn-Sn printing inkRodríguez-Crespo B., Salazar D., Lanceros-Méndez S., Chernenko V. Journal of Alloys and Compounds, 917, 165521, (2022) |
Dynamic and Self-Healable Chitosan/Hyaluronic Acid-Based In Situ-Forming HydrogelsMaiz-Fernández S., Pérez-Álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Méndez S. Gels, 8, 8, 477, (2022) |
Electro and magnetoactive printed bi-functional actuators based on alginate hybrid hydrogelsMaiz-Fernández S., Pérez-Álvarez L., de Munain-Arroniz I.L., Zoco A., Lopes A.C., Silván U., Salazar D., Vilas-Vilela J.L., Lanceros-Mendez S. International Journal of Biological Macromolecules, 219, 374, 383, (2022) |
Electroactive functional microenvironments from bioactive polymers: A new strategy to address cancerRibeiro S., Soares M., Hermenegildo B., Correia V., Díez A.G., Lanceros-Mendez S., Ribeiro C. Biomaterials Advances, 137, 212849, (2022) |
Electroactive poly(vinylidene fluoride) electrospun fiber mats coated with polyaniline and polypyrrole for tissue regeneration applicationsHermenegildo B., Ribeiro C., Peřinka N., Martins P., Trchová M., Hajná M., Stejskal J., Lanceros-Méndez S. Reactive and Functional Polymers, 170, 105118, (2022) |
Electrode fabrication process and its influence in lithium-ion battery performance: State of the art and future trendsGonçalves R., Lanceros-Méndez S., Costa C.M. Electrochemistry Communications, 135, 107210, (2022) |
Electrospun Magnetic Ionic Liquid Based Electroactive Materials for Tissue Engineering ApplicationsFernandes L.C., Meira R.M., Correia D.M., Ribeiro C., Fernandez E., Tubio C.R., Lanceros-Méndez S. Nanomaterials, 12, 17, 3072, (2022) |
Enhancement of Magnetic Surface-Enhanced Raman Scattering Detection by Tailoring Fe3O4@Au Nanorod Shell Thickness and Its Application in the On-site Detection of Antibiotics in WaterBerganza L.B., Litti L., Meneghetti M., Lanceros-Méndez S., Reguera J. ACS Omega, 7, 49, 45493, 45503, (2022) |
Environmentally friendly carrageenan-based ionic-liquid driven soft actuatorsSerra J.P., Fernandes L.C., Correia D.M., Tubio C.R., Vilas-Vilela J.L., Tariq M., Esperança J.M.S.S., Costa C.M., Lanceros-Mendez S. Materials Advances, 3, 2, 937, 945, (2022) |
Environmentally Friendly Conductive Screen-Printable Inks Based on N-Doped Graphene and PolyvinylpyrrolidoneFranco M., Motealleh A., Costa C.M., Hilliou L., Perinka N., Ribeiro C., Viana J.C., Costa P., Lanceros-Mendez S. Advanced Engineering Materials, 24, 6, 2101258, (2022) |
Exploring electroactive microenvironments in polymer-based nanocomposites to sensitize bacterial cells to low-dose embedded silver nanoparticlesMoreira J., Fernandes M.M., Carvalho E.O., Nicolau A., Lazic V., Nedeljković J.M., Lanceros-Mendez S. Acta Biomaterialia, 139, 237, 248, (2022) |
Exploring ionic liquid-laden metal-organic framework composite materials as hybrid electrolytes in metal (ion) batteriesUrgoiti-Rodriguez M., Vaquero-Vílchez S., Mirandona-Olaeta A., Fernández de Luis R., Goikolea E., Costa C.M., Lanceros-Mendez S., Fidalgo-Marijuan A., Ruiz de Larramendi I. Frontiers in Chemistry, 10, 995063, (2022) |
Fiber-Reinforced Polyester Composites with Photoluminescence Sensing Capabilities for UV Degradation MonitoringTubio C.R., Seoane-Rivero R., Neira S., Benito V., Zubieta K.G., Lanceros-Mendez S. Polymers, 14, 17, 3666, (2022) |
Flexible 3D Printed Acrylic Composites based on Polyaniline/Multiwalled Carbon Nanotubes for Piezoresistive Pressure SensorsArias-Ferreiro G., Lasagabáster-Latorre A., Ares-Pernas A., Dopico-García M.S., Pereira N., Costa P., Lanceros-Mendez S., Abad M.-J. Advanced Electronic Materials, 8, 12, 2200590, (2022) |
Flexible multifunctional hard coatings based on chromium oxynitride for pressure-sensing applicationsFerreira A., Correa M.A., Lanceros-Mendez S., Vaz F. Journal of Vacuum Science and Technology A: Vacuum, Surfaces and Films, 40, 6, 063101, (2022) |
Flexible TiCuxThin Films with Dual Antimicrobial and Piezoresistive CharacteristicsFerreira A., Fernandes M.M., Souza A.L.R., Correa M.A., Lanceros-Mendez S., Vaz F. ACS Applied Bio Materials, 5, 3, 1267, 1272, (2022) |
Green synthesis of molybdenum-based nanoparticles and their applications in energy conversion and storage: A reviewAwan A., Baig A., Zubair M., Rahdar A., Nazar M.F., Farooqi A.S., Shalan A.E., Lanceros-Méndez S., Zafar M.N. International Journal of Hydrogen Energy, 47, 72, 31014, 31057, (2022) |
Greener Solvent-Based Processing of Magnetoelectric NanocompositesLima A.C., Pereira N., Ribeiro C., Lanceros-Mendez S., Martins P. ACS Sustainable Chemistry and Engineering, 10, 13, 4122, 4132, (2022) |
How fullerenes inhibit the amyloid fibril formation of hen lysozymeLee O.-S., Petrenko V.I., Šipošová K., Musatov A., Park H., Lanceros-Méndez S. Journal of Industrial and Engineering Chemistry, 106, 168, 176, (2022) |
Immunomodulatory and regenerative effects of the full and fractioned adipose tissue derived stem cells secretome in spinal cord injuryPinho A.G., Cibrão J.R., Lima R., Gomes E.D., Serra S.C., Lentilhas-Graça J., Ribeiro C., Lanceros-Mendez S., Teixeira F.G., Monteiro S., Silva N.A., Salgado A.J. Experimental Neurology, 351, 113989, (2022) |
Improved performance of polyimide Cirlex-based dielectric barrier discharge plasma actuators for flow controlNunes-Pereira J., Rodrigues F.F., Abdollahzadehsangroudi M., Páscoa J.C., Lanceros-Mendez S. Polymers for Advanced Technologies, 33, 4, 1278, 1290, (2022) |
In a search for effective giant magnetoelectric coupling: Magnetically induced elastic resonance in Ni-Mn-Ga/P(VDF-TrFE) compositesMartins P., Lima A.C., L'vov V.A., Pereira N., Sratong-on P., Hosoda H., Chernenko V., Lanceros-Mendez S. Applied Materials Today, 29, 101682, (2022) |
Influence of glucose, sucrose, and dextran coatings on the stability and toxicity of silver nanoparticlesVukoje I., Lazić V., Sredojević D., Fernandes M.M., Lanceros-Mendez S., Ahrenkiel S.P., Nedeljković J.M. International Journal of Biological Macromolecules, 194, 461, 469, (2022) |
Influence of rGO on the Crystallization Kinetics, Cytoxicity, and Electrical and Mechanical Properties of Poly (L-lactide-co-ε-caprolactone) ScaffoldsDíaz E., León J., Murillo-Marrodán A., Ribeiro S., Lanceros-Méndez S. Materials, 15, 21, 7436, (2022) |
Ionic liquid modified electroactive polymer-based microenvironments for tissue engineeringHermenegildo B., Meira R.M., Díez A.G., Correia D.M., Ribeiro S., Serra J.P., Ribeiro C., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. Polymer, 246, 124731, (2022) |
Ionic liquid-based electroactive materials: a novel approach for cardiac tissue engineering strategiesMeira R.M., Correia D.M., García Díez A., Lanceros-Mendez S., Ribeiro C. Journal of Materials Chemistry B, 10, 34, 6472, 6482, (2022) |
Ionic Liquids as Biocompatible Antibacterial Agents: A Case Study on Structure-Related Bioactivity on Escherichia coliFernandes M.M., Carvalho E.O., Correia D.M., Esperança J.M.S.S., Padrão J., Ivanova K., Hoyo J., Tzanov T., Lanceros-Mendez S. ACS Applied Bio Materials, 5, 11, 5181, 5189, (2022) |
Ionic-triggered magnetoelectric coupling for magnetic sensing applicationsFernandes L.C., Correia D.M., Pereira N., Ribeiro C., Tubio C.R., Martins P., Lanceros-Mendez S. Applied Materials Today, 29, 101590, (2022) |
Lattice Microstructure Design for Cathode Electrodes for High-Performance Lithium-Ion BatteriesMiranda D., Gonçalves R., Veloso F., Miranda F., Vilaça J., Costa C.M., Lanceros-Méndez S. AIP Conference Proceedings, 2425, 200006, (2022) |
Lithium-Ion Battery Solid Electrolytes Based on Poly(vinylidene Fluoride)-Metal Thiocyanate Ionic Liquid BlendsSerra J.P., Fidalgo-Marijuan A., Barbosa J.C., Correia D.M., Gonçalves R., Porro J.M., Lanceros-Mendez S., Costa C.M. ACS Applied Polymer Materials, 4, 8, 5909, 5919, (2022) |
Long- and short-range magnetic interactions in nanocrystalline lightly Cr‑doped manganitesKhammassi F., Chérif W., Mendoza A., Salazar-Jaramillo D., Lanceros-Méndez S., Dammak M. Applied Physics A: Materials Science and Processing, 128, 8, 718, (2022) |
Magnetic graphene oxide-lignin nanobiocomposite: A novel, eco-friendly and stable nanostructure suitable for hyperthermia in cancer therapyEivazzadeh-Keihan R., Asgharnasl S., Moghim Aliabadi H.A., Tahmasebi B., Radinekiyan F., Maleki A., Bahreinizad H., Mahdavi M., Alavijeh M.S., Saber R., Lanceros-Méndez S., Shalan A.E. RSC Advances, 12, 6, 3593, 3601, (2022) |
Magnetically Activated Piezoelectric 3D Platform Based on Poly(Vinylidene) Fluoride Microspheres for Osteogenic Differentiation of Mesenchymal Stem CellsGuillot-Ferriols M., García-Briega M.I., Tolosa L., Costa C.M., Lanceros-Méndez S., Gómez Ribelles J.L., Gallego Ferrer G. Gels, 8, 10, 680, (2022) |
Magnetically active nanocomposites based on biodegradable polylactide, polycaprolactone, polybutylene succinate and polybutylene adipate terephthalateRincón-Iglesias M., Salado M., Lanceros-Mendez S., Lizundia E. Polymer, 249, 124804, (2022) |
Merging solution processing and printing for sustainable fabrication of Cu(In,Ga)Se2 photovoltaicsGonçalves B.F., Sadewasser S., Salonen L.M., Lanceros-Méndez S., Kolen'ko Y.V. Chemical Engineering Journal, 442, 136188, (2022) |
Metal organic framework modified poly(vinylidene fluoride-co-hexafluoropropylene) separator membranes to improve lithium-ion battery capacity fadingBarbosa J.C., Gonçalves R., Valverde A., Martins P.M., Petrenko V.I., Márton M., Fidalgo-Marijuan A., Fernández de Luis R., Costa C.M., Lanceros-Méndez S. Chemical Engineering Journal, 443, 136329, (2022) |
Microfluidic Processing of Piezoelectric and Magnetic Responsive Electroactive MicrospheresMartins L.A., Ródenas-Rochina J., Salazar D., Cardoso V.F., Gómez Ribelles J.L., Lanceros-Mendez S. ACS Applied Polymer Materials, 4, 8, 5368, 5379, (2022) |
Multicomponent magnetic nanoparticle engineering: the role of structure-property relationship in advanced applicationsDíez A.G., Rincón-Iglesias M., Lanceros-Méndez S., Reguera J., Lizundia E. Materials Today Chemistry, 26, 101220, (2022) |
Multifunctional hybrid membranes for photocatalytic and adsorptive removal of water contaminants of emerging concernMartins P.M., Santos B., Salazar H., Carabineiro S.A.C., Botelho G., Tavares C.J., Lanceros-Mendez S. Chemosphere, 293, 133548, (2022) |
Multifunctional Ternary Composites with Silver Nanowires and Titanium Dioxide Nanoparticles for Capacitive Sensing and Photocatalytic Self-Cleaning ApplicationsTubio C.R., Pereira N., Campos-Arias L., Martins P.M., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. ACS Applied Electronic Materials, 4, 8, 3815, 3824, (2022) |
Nanocomposites for Energy Storage ApplicationsBarbosa J., Gonçalves R., Costa C.M., Lanceros-Mendez S. Engineering Materials, 533, 565, (2022) |
Nanocomposites Materials and Their Applications: Current and Future TrendsShalan A.E., Makhlouf A.S.H., Lanceros-Méndez S. Engineering Materials, 3, 14, (2022) |
Natural based reusable materials for microfluidic substrates: The silk road towards sustainable portable analytical systemsBrito-Pereira R., Macedo A.S., Ribeiro C., Cardoso V.F., Lanceros-Méndez S. Applied Materials Today, 28, 101507, (2022) |
Origin of the ultra-wide temperature dielectric stability and dynamic behavior of nanoregions in 0.6Bi(Mg0.5Ti0.5)O3-0.4Ba0.8Ca0.2(Ti0.875Zr0.125)O3Chen K., Yan T., Liu J., Lei X., Fang L., Peng B., Lanceros-Méndez S., Wang D., Liu L., Zhang Q. Journal of Materials Chemistry C, 17, 4, (2022) |
pH-Induced 3D Printable Chitosan Hydrogels for Soft ActuationMaiz-Fernández S., Pérez-álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Méndez S. Polymers, 14, 3, 650, (2022) |
Photocrosslinkable and self-healable hydrogels of chitosan and hyaluronic acidMaiz-Fernández S., Pérez-Álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Mendez S. International Journal of Biological Macromolecules, 216, 291, 302, (2022) |
Photocurable Printed Piezocapacitive Pressure Sensor Based on an Acrylic Resin Modified with Polyaniline and LigninArias-Ferreiro G., Ares-Pernas A., Lasagabáster-Latorre A., Dopico-García M.S., Ligero P., Pereira N., Costa P., Lanceros-Mendez S., Abad M.-J. Advanced Materials Technologies, 7, 8, 2101503, (2022) |
Piezoelectric biodegradable poly(3-hydroxybutyrate-co-3-hydroxyvalerate) based electrospun fiber mats with tailored porosityMarques-Almeida T., Fernandes L.C., Correia D.M., Tubio C.R., Lanceros-Mendez S., Ribeiro C. Polymers for Advanced Technologies, 33, 4, 1092, 1099, (2022) |
Poly(lactic-co-glycolide) based biodegradable electrically and magnetically active microenvironments for tissue regeneration applicationsHermenegildo B., Meira R.M., Correia D.M., Díez A.G., Ribeiro S., Serra J.P., Ribeiro C., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. European Polymer Journal, 171, 111197, (2022) |
Poly(vinylidene fluoride-co-hexafluoropropylene) based tri-composites with zeolite and ionic liquid for electromechanical actuator and lithium-ion battery applicationsBarbosa J.C., Pinto R.S., Correia D.M., Fidalgo-Marijuan A., Gonçalves R., Ferdov S., Lanceros-Mendez S., Costa C.M. Electrochimica Acta, 431, 141186, (2022) |
Polyethylene/ poly(3-hydroxybutyrate-co-3-hydroxyvalerate /carbon nanotube composites for eco-friendly electronic applicationsFernández Armada D., González Rodríguez V., Costa P., Lanceros-Mendez S., Arias-Ferreiro G., Abad M.-J., Ares-Pernas A. Polymer Testing, 112, 107642, (2022) |
PrefaceShalan A.E., Makhlouf A.S.H., Lanceros-Méndez S. Engineering Materials, vii, x, (2022) |
Printed 3D Gesture Recognition Thermoformed Half Sphere Compatible with In-Mold Electronic ApplicationsGomes Correia V.M., Pereira N., Perinka N., Costa P., del Campo J., Lanceros-Mendez S. Advanced Engineering Materials, 24, 12, 2200730, (2022) |
Printed multifunctional magnetically activated energy harvester with sensing capabilitiesBrito-Pereira R., Ribeiro C., Pereira N., Lanceros-Mendez S., Martins P. Nano Energy, 94, 106885, (2022) |
Recent Progress in Graphene- and Related Carbon-Nanomaterial-based Electrochemical Biosensors for Early Disease DetectionFahmy H.M., Abu Serea E.S., Salah-Eldin R.E., Al-Hafiry S.A., Ali M.K., Shalan A.E., Lanceros-Méndez S. ACS Biomaterials Science and Engineering, 8, 3, 964, 1000, (2022) |
Recycling methods for different cathode chemistries – A critical reviewWang Y., Goikolea E., de Larramendi I.R., Lanceros-Méndez S., Zhang Q. Journal of Energy Storage, 56, 106053, (2022) |
Reusable composite membranes for highly efficient chromium removal from real water matrixesQueirós J.M., Salazar H., Valverde A., Botelho G., Fernández de Luis R., Teixeira J., Martins P.M., Lanceros-Mendez S. Chemosphere, 307, 135922, (2022) |
Reusable Nanocomposite Membranes for Highly Efficient Arsenite and Arsenate Dual Removal from WaterSalazar H., Martins P.M., Valverde A., Fernández de Luis R., Vilas-Vilela J.L., Ferdov S., Botelho G., Lanceros-Mendez S. Advanced Materials Interfaces, 9, 10, 2101419, (2022) |
Reusable nanocomposite-filters for arsenite and arsenate dual real effluents remediation in an up-scaled membrane reactorSalazar H., Martins P.M., Fernandes M.M., Costa P., Ferdov S., Botelho G., Lanceros-Mendez S. Journal of Hazardous Materials, 440, 129756, (2022) |
Self-sensing fluorescence polymer composites for chemical degradation protection and monitoringTubio C.R., Seoane-Rivero R., Garcia A., Gallardo A., Salaverria L.D., Amondarian A.L.A., Zubieta K.G., Lanceros-Mendez S. Progress in Organic Coatings, 168, 106879, (2022) |
Silk fibroin and sericin polymer blends for sustainable battery separatorsReizabal A., Fidalgo-Marijuan A., Gonçalves R., Gutiérrez-Pardo A., Aguesse F., Pérez-Álvarez L., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. Journal of Colloid and Interface Science, 611, 366, 376, (2022) |
Silk Fibroin Nanocomposites with Indium Tin Oxide toward Sustainable Capacitive Touch Sensing ApplicationsReizabal A., Castro N., Pereira N., Costa C.M., Pérez L., Vilas-Vilela J.L., Lanceros-Méndez S. ACS Applied Electronic Materials, 4, 4, 1901, 1909, (2022) |
Silver Nanoparticles for Conductive Inks: From Synthesis and Ink Formulation to Their Use in Printing TechnologiesZhang J., Ahmadi M., Fargas G., Perinka N., Reguera J., Lanceros-Méndez S., Llanes L., Jiménez-Piqué E. Metals, 12, 2, 234, (2022) |
Size Effect in Hybrid TiO2:Au Nanostars for Photocatalytic Water Remediation ApplicationsZheng F., Martins P.M., Queirós J.M., Tavares C.J., Vilas-Vilela J.L., Lanceros-Méndez S., Reguera J. International Journal of Molecular Sciences, 23, 22, 13741, (2022) |
Solar Photocatalytic Membranes: An Experimental and Artificial Neural Network Modeling Approach for Niflumic Acid DegradationAoudjit L., Salazar H., Zioui D., Sebti A., Martins P.M., Lanceros-Méndez S. Membranes, 12, 9, 849, (2022) |
Solid Magnetoliposomes as Multi-Stimuli-Responsive Systems for Controlled Release of Doxorubicin: Assessment of Lipid FormulationsCardoso B.D., Cardoso V.F., Lanceros-Méndez S., Castanheira E.M.S. Biomedicines, 10, 5, 1207, (2022) |
Solid Polymer Electrolytes Based on Gellan Gum and Ionic Liquid for Sustainable Electrochromic DevicesAlves R., Fidalgo-Marijuan A., Campos-Arias L., Gonçalves R., Silva M.M., Del Campo F.J., Costa C.M., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 14, 13, 15494, 15503, (2022) |
Stability of Biomimetically Functionalised Alginate Microspheres as 3D Support in Cell CulturesGarcía-Briega M.I., Ródenas-Rochina J., Martins L.A., Lanceros-Méndez S., Gallego Ferrer G., Sempere A., Gómez Ribelles J.L. Polymers, 14, 20, 4282, (2022) |
State of the art and current trends on layered inorganic-polymer nanocomposite coatings for anticorrosion and multi-functional applicationsTeijido R., Ruiz-Rubio L., Echaide A.G., Vilas-Vilela J.L., Lanceros-Mendez S., Zhang Q. Progress in Organic Coatings, 163, 106684, (2022) |
Structural organization of ionic liquids embedded in fluorinated polymersPetrenko V.I., Fernandes L.C., Ivankov O.I., Tubio C.R., Tariq M., Esperança J.M.S.S., Correia D.M., Lanceros-Mendez S. Journal of Molecular Liquids, 360, 119385, (2022) |
Sustainable Lithium-Ion Battery Separator Membranes Based on Carrageenan BiopolymerSerra J.P., Fidalgo-Marijuan A., Teixeira J., Hilliou L., Gonçalves R., Urtiaga K., Gutiérrez-Pardo A., Aguesse F., Lanceros-Mendez S., Costa C.M. Advanced Sustainable Systems, 6, 12, 2200279, (2022) |
Sustainable Lithium-Ion Battery Separators Based on Poly(3-Hydroxybutyrate-Co-Hydroxyvalerate) Pristine and Composite Electrospun MembranesBarbosa J.C., Correia D.M., Fidalgo-Marijuan A., Gonçalves R., Fernandes M., de Zea Bermudez V., Silva M.M., Lanceros-Mendez S., Costa C.M. Energy Technology, 10, 2, 2100761, (2022) |
Tailoring physicochemical properties of collagen-based composites with ionic liquids and wool for advanced applicationsAndonegi M., Correia D.M., Costa C.M., Lanceros-Mendez S., Caba K.D.L., Guerrero P. Polymer, 252, 124943, (2022) |
Template-free hydrothermal synthesis of lithium iron tavorite with complex morphologies driven by phase transformationFerdov S., Gonçalves R., Fidalgo-Marijuan A., Costa C.M., Lanceros-Mendez S. Nano-Structures and Nano-Objects, 30, 100870, (2022) |
Three-Dimensional Printing for Solid-State BatteriesPinto R.S., Gonçalves R., Lanceros-Méndez S., Costa C.M. ACS Symposium Series, 1414, 331, 350, (2022) |
Toward Sustainable Solid Polymer Electrolytes for Lithium-Ion BatteriesBarbosa J.C., Gonçalves R., Costa C.M., Lanceros-Méndez S. ACS Omega, 7, 17, 14457, 14464, (2022) |
Transparent Piezoelectric Polymer-Based Materials for Energy Harvesting and Multitouch Detection DevicesRodrigues-Marinho T., Pereira N., Correia V., Miranda D., Lanceros-Méndez S., Costa P. ACS Applied Electronic Materials, 4, 1, 287, 296, (2022) |
Tuning magnetic response and ionic conductivity of electrospun hybrid membranes for tissue regeneration strategiesHermenegildo B., Correia D.M., Ribeiro C., Serra J.P., Pérez L., Vilas-Vilela J.L., Lanceros-Méndez S. Polymers for Advanced Technologies, 33, 4, 1233, 1243, (2022) |
Tuning magnetorheological functional response of thermoplastic elastomers by varying soft-magnetic nanofillersDíez A.G., Tubio C.R., Gómez A., Berastegi J., Bou-Ali M.M., Etxebarria J.G., Lanceros-Mendez S. Polymers for Advanced Technologies, 33, 8, 2610, 2619, (2022) |
Two- and three-dimensional piezoelectric scaffolds for bone tissue engineeringSilva C.A., Fernandes M.M., Ribeiro C., Lanceros-Mendez S. Colloids and Surfaces B: Biointerfaces, 218, 112708, (2022) |
Understanding electrogenerated chemiluminescence at graphite screen-printed electrodesAlba A.F., Fernández-de Luis R., Totoricaguena-Gorriño J., Ruiz-Rubio L., Sánchez J., Vilas-Vilela J.L., Lanceros-Méndez S., del Campo F.J. Journal of Electroanalytical Chemistry, 914, 116331, (2022) |
Understanding Myoblast Differentiation Pathways When Cultured on Electroactive Scaffolds through Proteomic AnalysisRibeiro S., Ribeiro C., Martins V.M., Honoré B., Neves-Petersen M.T., Gomes A.C., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 14, 22, 26180, 26193, (2022) |
3D printable self-healing hyaluronic acid/chitosan polycomplex hydrogels with drug release capabilityMaiz-Fernández S., Barroso N., Pérez-Álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Mendez S. International Journal of Biological Macromolecules, 188, 820, 832, (2021) |
A Facile Nanoimpregnation Method for Preparing Paper-Based Sensors and ActuatorsBrito-Pereira R., Tubio C.R., Lanceros-Mendez S., Martins P. Advanced Materials Technologies, 6, 9, 2100476, (2021) |
All printed soft actuators based on ionic liquid/polymer hybrid materialsCorreia D.M., Fernandes L.C., Pereira N., Barbosa J.C., Serra J.P., Pinto R.S., Costa C.M., Lanceros-Méndez S. Applied Materials Today, 22, 100928, (2021) |
All-Printed Smart Label with Integrated Humidity Sensors and Power SupplyPereira N., Correia V., Peřinka N., Costa C.M., Lanceros-Méndez S. Advanced Engineering Materials, 23, 3, 2001229, (2021) |
Biomimetic 3d environment based on microgels as a model for the generation of drug resistance in multiple myelomaMarín-Payá J.C., Díaz-Benito B., Martins L.A., Trujillo S.C., Cordón L., Lanceros-Méndez S., Ferrer G.G., Sempere A., Ribelles J.L.G. Materials, 14, 23, 7121, (2021) |
Bismuth-based heterojunction nanocomposites for photocatalysis and heavy metal detection applicationsBatool M., Nazar M.F., Awan A., Tahir M.B., Rahdar A., Shalan A.E., Lanceros-Méndez S., Zafar M.N. Nano-Structures and Nano-Objects, 27, 100762, (2021) |
Broadband dielectric response of silk Fibroin/BaTiO3 composites: Influence of nanoparticle size and concentrationCosta C.M., Reizabal A., Sabater i Serra R., Balado A.A., Pérez-Álvarez L., Gómez Ribelles J.L., Vilas-Vilela J.L., Lanceros-Méndez S. Composites Science and Technology, 213, 108927, (2021) |
Can photocatalytic and magnetic nanoparticles be a threat to aquatic detrital food webs?Pradhan A., Fernandes M., Martins P.M., Pascoal C., Lanceros-Méndez S., Cássio F. Science of the Total Environment, 769, 144576, (2021) |
Capacitive and illumination systems based on printed and hybrid electronicsPeřinka N., Pozo B., Fernández De Gorostiza E., Mendes-Felipe C., Vilas-Vilela J.L., Lanceros-Méndez S. Flexible and Printed Electronics, 6, 1, 015004, (2021) |
Chitin/Metal-Organic Framework Composites as Wide-Range AdsorbentTovar Jimenez G.I., Valverde A., Mendes-Felipe C., Wuttke S., Fidalgo-Marijuan A., Larrea E.S., Lezama L., Zheng F., Reguera J., Lanceros-Méndez S., Arriortua M.I., Copello G., de Luis R.F. ChemSusChem, 14, 14, 2892, 2901, (2021) |
Comparative Assessment of Ionic Liquid-Based Soft Actuators Prepared by Film Casting Versus Direct Ink WritingCorreia D.M., Barbosa J.C., Serra J.P., Pinto R.S., Fernandes L.C., Tubio C.R., Lanceros-Mendez S., Costa C.M. Advanced Engineering Materials, 23, 10, 2100411, (2021) |
Crystal morphology control of synthetic giniite for enhanced photo-Fenton activity against the emerging pollutant metronidazoleMartins P.M., Salazar H., Aoudjit L., Gonçalves R., Zioui D., Fidalgo-Marijuan A., Costa C.M., Ferdov S., Lanceros-Mendez S. Chemosphere, 262, 128300, (2021) |
Crystallization Monitoring of Semicrystalline Poly(vinylidene fluoride)/1-Ethyl-3-methylimidazolium Hexafluorophosphate [Emim][PF6] Ionic Liquid BlendsCorreia D.M., Costa C.M., Rodríguez Hernández J.C., Tort-Ausina I., Biosca L.T., Torregrosa Cabanilles C., Meseguer-Dueñas J., Krakovsky I., Lanceros-Méndez S., Gómez Ribelles J.L. Crystal Growth and Design, 21, 8, 4406, 4416, (2021) |
Cytocompatible scaffolds of poly(L-lactide)/reduced graphene oxide for tissue engineeringDíaz E., Iglesias N., Ribeiro S., Lanceros-Méndez S. Journal of Biomaterials Science, Polymer Edition, 32, 11, 1406, 1419, (2021) |
Deposition of Ti-Zr-O-N films by reactive magnetron sputtering of Zr target with Ti ribbonsda Silva Oliveira C.I., Martínez-Martínez D., Cunha L., Lanceros-Mendez S., Martins P., Alves E., Barradas N.P., Apreutesei M. Surface and Coatings Technology, 409, 126737, (2021) |
Direct-Ink-Writing of Electroactive Polymers for Sensing and Energy Storage ApplicationsPinto R.S., Serra J.P., Barbosa J.C., Gonçalves R., Silva M.M., Lanceros-Méndez S., Costa C.M. Macromolecular Materials and Engineering, 306, 11, 2100372, (2021) |
Eco-friendly and cost-efficient inks for screen-printed fabrication of copper indium gallium diselenide photoabsorber thin filmsGonçalves B.F., Botelho G., Lanceros-Méndez S., Kolen'ko Y.V. Journal of Colloid and Interface Science, 598, 388, 397, (2021) |
Effect of polymer dissolution temperature and conditioning time on the morphological and physicochemical characteristics of poly(Vinylidene fluoride) membranes prepared by non-solvent induced phase separationTeixeira J., Cardoso V.F., Botelho G., Morão A.M., Nunes-Pereira J., Lanceros-Mendez S. Polymers, 13, 23, 4062, (2021) |
Effective elastin-like recombinamers coating on poly(vinylidene) fluoride membranes for mesenchymal stem cell cultureGuillot-Ferriols M., del Barrio A., Costa C.M., Lanceros Méndez S., Rodríguez-Cabello J.C., Gómez Ribelles J.L., Santos M., Gallego Ferrer G. European Polymer Journal, 146, 110269, (2021) |
Electric vehicles: To what extent are environmentally friendly and cost effective? – Comparative study by european countriesCosta C.M., Barbosa J.C., Castro H., Gonçalves R., Lanceros-Méndez S. Renewable and Sustainable Energy Reviews, 151, 111548, (2021) |
Enhanced ionic conductivity in poly(vinylidene fluoride) electrospun separator membranes blended with different ionic liquids for lithium ion batteriesBarbosa J.C., Correia D.M., Gonçalves R., de Zea Bermudez V., Silva M.M., Lanceros-Mendez S., Costa C.M. Journal of Colloid and Interface Science, 582, 376, 386, (2021) |
Environmentally Friendly Graphene-Based Conductive Inks for Multitouch Capacitive Sensing SurfacesFranco M., Correia V., Marques P., Sousa F., Silva R., Figueiredo B.R., Bernardes A., Silva R.P., Lanceros-Mendez S., Costa P. Advanced Materials Interfaces, 8, 18, 2100578, (2021) |
Erratum to “Free-standing intrinsically conducting polymer membranes based on cellulose and poly(vinylidene fluoride) for energy storage applications” [Eur. Polym. J. 144 (2021) 110240] (European Polymer Journal (2021) 144, (S0014305720319571), (10.1016/j.eurpolymj.2020.110240))Salado M., Lanceros-Mendez S., Lizundia E. European Polymer Journal, 146, 110290, (2021) |
Fluorinated Polymer Membranes as Advanced Substrates for Portable Analytical Systems and Their Proof of Concept for Colorimetric BioassaysBrito-Pereira R., Macedo A.S., Tubio C.R., Lanceros-Méndez S., Cardoso V.F. ACS Applied Materials and Interfaces, 13, 15, 18065, 18076, (2021) |
Fractionating stem cells secretome for Parkinson's disease modeling: Is it the whole better than the sum of its parts?Vilaça-Faria H., Marote A., Lages I., Ribeiro C., Mendes-Pinheiro B., Domingues A.V., Campos J., Lanceros-Mendez S., Salgado A.J., Teixeira F.G. Biochimie, 189, 87, 98, (2021) |
Free-standing intrinsically conducting polymer membranes based on cellulose and poly(vinylidene fluoride) for energy storage applicationsSalado M., Lanceros-Mendez S., Lizundia E. European Polymer Journal, 144, 110240, (2021) |
High dielectric constant poly(vinylidene fluoride-trifluoroethylene-chlorofluoroethylene) for capacitive pressure and bending sensorsPereira N., Gonçalves S., Barbosa J.C., Gonçalves R., Tubio C.R., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. Polymer, 214, 123349, (2021) |
High-dielectric mouldable and printable wax reinforced with ceramic nanofillers and its suitability for capacitive sensingBrito-Pereira R., Rodrigues-Marinho T., Tubio C.R., Costa P., Lanceros-Mendez S. Flexible and Printed Electronics, 6, 3, 035005, (2021) |
High-Performance Room Temperature Lithium-Ion Battery Solid Polymer Electrolytes Based on Poly(vinylidene fluoride- co-hexafluoropropylene) Combining Ionic Liquid and ZeoliteBarbosa J.C., Correia D.M., Fernández E.M., Fidalgo-Marijuan A., Barandika G., Gonçalves R., Ferdov S., De Zea Bermudez V., Costa C.M., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 13, 41, 48889, 48900, (2021) |
Highly sensitive transparent piezoionic materials and their applicability as printable pressure sensorsFernandes L.C., Correia D.M., Pereira N., Tubio C.R., Lanceros-Méndez S. Composites Science and Technology, 214, 108976, (2021) |
Hybrid Bionanocomposite Containing Magnesium Hydroxide Nanoparticles Embedded in a Carboxymethyl Cellulose Hydrogel plus Silk Fibroin as a Scaffold for Wound Dressing ApplicationsEivazzadeh-Keihan R., Khalili F., Khosropour N., Aliabadi H.A.M., Radinekiyan F., Sukhtezari S., Maleki A., Madanchi H., Hamblin M.R., Mahdavi M., Haramshahi S.M.A., Shalan A.E., Lanceros-Méndez S. ACS Applied Materials and Interfaces, 13, 29, 33840, 33849, (2021) |
Improved electrochemical performance of LiMn1.5M0.5O4 (M=Ni, Co, Cu) based cathodes for lithium-ion batteriesGonçalves R., Sharma P., Ram P., Ferdov S., Silva M.M., Costa C.M., Singhal R., Sharma R.K., Lanceros-Méndez S. Journal of Alloys and Compounds, 853, 157208, (2021) |
Influence of cellulose nanocrystal surface functionalization on the bending response of cellulose nanocrystal/ionic liquid soft actuatorsCorreia D.M., Lizundia E., Fernandes L.C., Costa C.M., Lanceros-Méndez S. Physical Chemistry Chemical Physics, 23, 11, 6710, 6716, (2021) |
Ionic liquid-based materials for biomedical applicationsCorreia D.M., Fernandes L.C., Fernandes M.M., Hermenegildo B., Meira R.M., Ribeiro C., Ribeiro S., Reguera J., Lanceros-Méndez S. Nanomaterials, 11, 9, 2401, (2021) |
Kit “energy, environment and sustainability”: An educational strategy for a sustainable future. a case study for guinea-bissauOliveira J., Neves L., Lanceros-Mendez S. Education Sciences, 11, 12, 787, (2021) |
Large-scale aqueous synthesis of Cu(In,Ga)Se2nanoparticles for photocatalytic degradation of ciprofloxacinGonçalves B.F., Martins P.M., Lagrow A.P., Botelho G., Salonen L.M., Lanceros-Méndez S., Kolen'Ko Y.V. Dalton Transactions, 50, 45, 16819, 16828, (2021) |
Large-scale synthesis of semiconducting cu(In,ga)se2 nanoparticles for screen printing applicationGonçalves B.F., Lagrow A.P., Pyrlin S., Owens-Baird B., Botelho G., Marques L.S.A., Ramos M.M.D., Kovnir K., Lanceros-Mendez S., Kolen’ko Y.V. Nanomaterials, 11, 5, 1148, (2021) |
Laser-activated screen-printed carbon electrodes for enhanced dopamine determination in the presence of ascorbic and uric acidAlba A.F., Totoricaguena-Gorriño J., Sánchez-Ilárduya M.B., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Méndez S., del Campo F.J. Electrochimica Acta, 399, 139374, (2021) |
Laser-induced highly oriented pyrolytic graphite for high-performance screen-printed electrodesAlba A.F., Totoricaguena-Gorrino J., Campos-Arias L., Peřinka N., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Méndez S., Del Campo F.J. Materials Advances, 2, 18, 5912, 5921, (2021) |
Lithium bis(trifluoromethanesulfonyl)imide blended in polyurethane acrylate photocurable solid polymer electrolytes for lithium-ion batteriesMendes-Felipe C., Barbosa J.C., Gonçalves R., Miranda D., Costa C.M., Vilas-Vilela J.L., Lanceros-Mendez S. Journal of Energy Chemistry, 62, 485, 496, (2021) |
Magnesium aminoclays as plasmid delivery agents for non-competent Escherichia coli JM109 transformationMendes G.P., Kluskens L.D., Lanceros-Méndez S., Mota M. Applied Clay Science, 204, 106010, (2021) |
Magnetic Copper Ferrite Nanoparticles Functionalized by Aromatic Polyamide Chains for Hyperthermia ApplicationsEivazzadeh-Keihan R., Asgharnasl S., Bani M.S., Radinekiyan F., Maleki A., Mahdavi M., Babaniamansour P., Bahreinizad H., Shalan A.E., Lanceros-Méndez S. Langmuir, 37, 29, 8847, 8854, (2021) |
Magnetic materials: A journey from finding north to an exciting printed futureMerazzo K.J., Lima A.C., Rincón-Iglesias M., Fernandes L.C., Pereira N., Lanceros-Mendez S., Martins P. Materials Horizons, 8, 10, 2654, 2684, (2021) |
Magnetically active lithium-ion batteries towards battery performance improvementCosta C.M., Merazzo K.J., Gonçalves R., Amos C., Lanceros-Méndez S. iScience, 24, 6, 102691, (2021) |
Magnetoelectric Polymer-Based Nanocomposites with Magnetically Controlled Antimicrobial ActivityFernandes M.M., Martins P., Correia D.M., Carvalho E.O., Gama F.M., Vazquez M., Bran C., Lanceros-Mendez S. ACS Applied Bio Materials, 4, 1, 559, 570, (2021) |
Magnetorheological Elastomer-Based Materials and Devices: State of the Art and Future PerspectivesDíez A.G., Tubio C.R., Etxebarria J.G., Lanceros-Mendez S. Advanced Engineering Materials, 23, 6, 2100240, (2021) |
Metal-organic frameworks and zeolite materials as active fillers for lithium-ion battery solid polymer electrolytesBarbosa J.C., Gonçalves R., Costa C.M., De Zea Bermudez V., Fidalgo-Marijuan A., Zhang Q., Lanceros-Méndez S. Materials Advances, 2, 12, 3790, 3805, (2021) |
Modulation of the bifunctional CrVI to CrIII photoreduction and adsorption capacity in ZrIV and TiIV benchmark metal-organic frameworksSaiz P.G., Valverde A., Gonzalez-Navarrete B., Rosales M., Quintero Y.M., Fidalgo-Marijuan A., Orive J., Reizabal A., Larrea E.S., Arriortua M.I., Lanceros-Méndez S., García A., de Luis R.F. Catalysts, 11, 1, 51, 1, 14, (2021) |
Multifunctional hard coatings based on CrNx for temperature sensing applicationsFerreira A., Correa M.A., Silva J.P., Correia D., Lanceros-Mendez S., Vaz F. Sensors and Actuators, A: Physical, 329, 112794, (2021) |
Multifunctional wax based conductive and piezoresistive nanocomposites for sensing applicationsBrito-Pereira R., Tubio C.R., Costa P., Lanceros-Mendez S. Composites Science and Technology, 213, 108892, (2021) |
Nanostructured Cr(N,O) based thin films for relative humidity sensingFerreira A., Silva J.P., Correia D.M., Pereira N., Correa M.A., Lanceros-Mendez S., Vaz F. Vacuum, 191, 110333, (2021) |
Optimized Printed Cathode Electrodes for High Performance BatteriesGonçalves R., Dias P., Hilliou L., Costa P., Silva M.M., Costa C.M., Corona-Galván S., Lanceros-Méndez S. Energy Technology, 9, 1, 2000805, (2021) |
Patterned separator membranes with pillar surface microstructures for improved battery performanceGonçalves R., Miranda D., Marques-Almeida T., Silva M.M., Cardoso V.F., Almeida A.M., Costa C.M., Lanceros-Méndez S. Journal of Colloid and Interface Science, 596, 158, 172, (2021) |
Pectin-cellulose hydrogel, silk fibroin and magnesium hydroxide nanoparticles hybrid nanocomposites for biomedical applicationsEivazzadeh-Keihan R., Ahmadpour F., Aliabadi H.A.M., Radinekiyan F., Maleki A., Madanchi H., Mahdavi M., Shalan A.E., Lanceros-Méndez S. International Journal of Biological Macromolecules, 192, 7, 15, (2021) |
Photocurable magnetic materials with tailored functional propertiesMendes-Felipe C., Garcia A., Salazar D., Vilas-Vilela J.L., Lanceros-Mendez S. Composites Part C: Open Access, 5, 100143, (2021) |
Photocurable temperature activated humidity hybrid sensing materials for multifunctional coatingsMendes-Felipe C., Salado M., Fernandes L.C., Correia D.M., Ruiz-Rubio L., Tariq M., Esperança J.M.S.S., Vilas-Vilela J.L., Lanceros-Mendez S. Polymer, 221, 123635, (2021) |
Piezoelectric Polymer Composites for Sensors and ActuatorsCarvalho E., Fernandes L., Costa C.M., Lanceros-Méndez S. Encyclopedia of Materials: Composites, 2, 473, 486, (2021) |
Poly(vinylidene fluoride-trifluoroethylene-chlorofluoroethylene): A New Binder for Conventional and Printable Lithium-Ion BatteriesBarbosa J.C., Pinto R.S., Hilliou L., Silva M.M., Costa C.M., Gonçalves R., Lanceros-Méndez S. ACS Applied Energy Materials, 4, 12, 14129, 14140, (2021) |
Polycarbonate based multifunctional self-sensing 2D and 3D printed structures for aeronautic applicationsCosta P., Dios J.R., Cardoso J., Campo J.J., Tubio C.R., Gon alves B.F., Castro N., Lanceros-Méndez S. Smart Materials and Structures, 30, 8, 085032, (2021) |
Processing Strategies to Obtain Highly Porous Silk Fibroin Structures with Tailored Microstructure and Molecular Characteristics and Their Applicability in Water RemediationReizabal A., Costa C.M., Saiz P.G., Gonzalez B., Pérez-Álvarez L., Fernández de Luis R., Garcia A., Vilas-Vilela J.L., Lanceros-Méndez S. Journal of Hazardous Materials, 403, 123675, (2021) |
Recent advances on battery separators based on poly(vinylidene fluoride) and its copolymers for lithium-ion battery applicationsCosta C.M., Lanceros-Mendez S. Current Opinion in Electrochemistry, 29, 100752, (2021) |
Recent advances on materials for lithium-ion batteriesBarbosa J.C., Gonçalves R., Costa C.M., Lanceros-Mendez S. Energies, 14, 11, 3145, (2021) |
Recycling and environmental issues of lithium-ion batteries: Advances, challenges and opportunitiesCosta C.M., Barbosa J.C., Gonçalves R., Castro H., Campo F.J.D., Lanceros-Méndez S. Energy Storage Materials, 37, 433, 465, (2021) |
Reusable ag@tio2-based photocatalytic nanocomposite membranes for solar degradation of contaminants of emerging concernAoudjit L., Salazar H., Zioui D., Sebti A., Martins P.M., Lanceros-Mendez S. Polymers, 13, 21, 3718, (2021) |
Roadmap on Magnetoelectric Materials and DevicesLiang X., Matyushov A., Hayes P., Schell V., Dong C., Chen H., He Y., Will-Cole A., Quandt E., Martins P., McCord J., Medarde M., Lanceros-Mendez S., Van Dijken S., Sun N.X., Sort J. IEEE Transactions on Magnetics, 57, 8, 9446997, (2021) |
Short-range magnetic behavior in manganites La0.93K0.07Mn1-xCu xO3(0.0 ≤ x ≤ 0.09) above the Curie temperatureKhammassi F., López J.F., Chérif W., Mendoza A., Lanceros-Mendez S., Dammak M., Salazar D. Journal of Physics D: Applied Physics, 54, 17, 175001, (2021) |
Silver-Doped Cadmium Selenide/Graphene Oxide-Filled Cellulose Acetate Nanocomposites for Photocatalytic Degradation of Malachite Green toward Wastewater TreatmentAhmed M.K., Shalan A.E., Afifi M., El-Desoky M.M., Lanceros-Méndez S. ACS Omega, 6, 36, (2021) |
Smart and functional materials for lithium-ion batteryCosta C.M., Lanceros-Mendez S. Energies, 14, 22, 7713, (2021) |
Spherical and needle shaped magnetic nanoparticles for friction and magnetic stimulated transformation of microorganismsMendes G.P., Kluskens L.D., Mota M., Lanceros-Méndez S., Hatton T.A. Nano-Structures and Nano-Objects, 26, 100732, (2021) |
Theoretical optimization of magnetoelectric multilayer laminatesMartins P., Fernandez C.S.L., Silva D., Lanceros-Méndez S. Composites Science and Technology, 204, 108642, (2021) |
Thermal degradation behavior of ionic liquid/ fluorinated polymer composites: Effect of polymer type and ionic liquid anion and cationDias J.C., Correia D.M., Costa C.M., Botelho G., Vilas-Vilela J.L., Lanceros-Mendez S. Polymer, 229, 123995, (2021) |
Unraveling the role of magnetic anisotropy on the thermoelectric response: A theoretical and experimental approachCorrea M.A., Gamino M., De Melo A.S., Lopes M.V.P., Santos J.G.S., Souza A.L.R., Frana Junior S.A.N., Ferreira A., Lanceros-Méndez S., Vaz F., Bohn F. Journal of Physics D: Applied Physics, 55, 2, 025001, (2021) |
Advanced Lightweight Multifunctional Materials: A volume in Woodhead Publishing in MaterialsCosta P., Costa C.M., Lanceros-Mendez S. Advanced Lightweight Multifunctional Materials, 1, 532, (2020) |
All-printed piezoresistive sensor matrix with organic thin-film transistors as a switch for crosstalk reductionCorreia V., Oliveira J., Perinka N., Costa P., Sowade E., Mitra K.Y., Baumann R.R., Lanceros-Mendez S. ACS Applied Electronic Materials, 2, 5, 1470, 1477, (2020) |
Antimicrobial and Antibiofilm Properties of Fluorinated Polymers with Embedded Functionalized NanodiamondsNunes-Pereira J., Costa P., Fernandes L., Carvalho E.O., Fernandes M.M., Carabineiro S.A.C., Buijnsters J.G., Tubio C.R., Lanceros-Mendez S. ACS Applied Polymer Materials, 2, 11, 5014, 5024, (2020) |
Biodegradable hydrogels loaded with magnetically responsive microspheres as 2d and 3d scaffoldsCarvalho E.O., Ribeiro C., Correia D.M., Botelho G., Lanceros-Mendez S. Nanomaterials, 10, 12, 2421, 1, 12, (2020) |
Cellulose and its derivatives for lithium ion battery separators: A review on the processing methods and propertiesLizundia E., Costa C.M., Alves R., Lanceros-Méndez S. Carbohydrate Polymer Technologies and Applications, 1, 100001, (2020) |
Cellulose nanocrystal and water-soluble cellulose derivative based electromechanical bending actuatorsCorreia D.M., Lizundia E., Meira R.M., Rincón-Iglesias M., Lanceros-Méndez S. Materials, 13, 10, 2294, (2020) |
Chromium Speciation in Zirconium-Based Metal–Organic Frameworks for Environmental RemediationSaiz P.G., Iglesias N., González Navarrete B., Rosales M., Quintero Y.M., Reizabal A., Orive J., Fidalgo Marijuan A., Larrea E.S., Lopes A.C., Lezama L., García A., Lanceros-Mendez S., Arriortua M.I., Fernández de Luis R. Chemistry - A European Journal, 26, 61, 13861, 13872, (2020) |
Combining cobalt ferrite and graphite with cellulose nanocrystals for magnetically active and electrically conducting mesoporous nanohybridsLizundia E., Rincón-Iglesias M., Lanceros-Méndez S. Carbohydrate Polymers, 236, 116001, (2020) |
Cone geometry optimization and thermal behavior for lithium-ion battery separatorsMiranda D., Goncalves R., Miranda F., Vilhena E., Lanceros-Mendez S., Costa C.M. AIP Conference Proceedings, 2293, 260006, (2020) |
Design of Ionic-Liquid-Based Hybrid Polymer Materials with a Magnetoactive and Electroactive Multifunctional ResponseFernandes L.C., Correia D.M., Fernández E., Tariq M., Esperança J.M.S.S., Lanceros-Méndez S. ACS Applied Materials and Interfaces, 12, 37, 42089, 42098, (2020) |
Development of poly(l-lactic acid)-based bending actuatorsCorreia D.M., Fernandes L.C., Cruz B.D.D., Botelho G., de Zea Bermudez V., Lanceros-Ménde S. Polymers, 12, 5, 1187, (2020) |
Dielectric relaxation dynamics in poly(vinylidene fluoride)/Pb(Zr0·53Ti0.47)O3 compositesCosta C.M., Sabater i Serra R., Andrio Balado A., Gómez Ribelles J.L., Lanceros-Méndez S. Polymer, 204, 122811, (2020) |
Effect of bacterial nanocellulose binding on the bactericidal activity of bovine lactoferrinPadrão J., Ribeiro S., Lanceros-Méndez S., Rodrigues L.R., Dourado F. Heliyon, 6, 7, e04372, (2020) |
Effect of Ionic Liquid Content on the Crystallization Kinetics and Morphology of Semicrystalline Poly(vinylidene Fluoride)/Ionic Liquid BlendsCorreia D.M., Costa C.M., Rodríguez-Hernández J.C., Tort Ausina I., Biosca L.T., Torregrosa Cabanilles C., Meseguer-Duenãs J.M., Lanceros-Méndez S., Gomez Ribelles J.L. Crystal Growth and Design, 20, 8, 4967, 4979, (2020) |
Electroactive poly(vinylidene fluoride)-based materials: Recent progress, challenges, and opportunitiesCosta C.M., Cardoso V.F., Brito-Pereira R., Martins P., Correia D.M., Correia V., Ribeiro C., Martins P.M., Lanceros-Méndez S. Fascinating Fluoropolymers and Their Applications, 1, 43, (2020) |
Electroactive γ-phase, enhanced thermal and mechanical properties and high ionic conductivity response of poly (vinylidene fluoride)/cellulose nanocrystal hybrid nanocompositesLizundia E., Reizabal A., Costa C.M., Maceiras A., Lanceros-Méndez S. Materials, 13, 3, 743, (2020) |
Enhanced photocatalytic activity of au/TiO2 nanoparticles against ciprofloxacinMartins P., Kappert S., Le H.N., Sebastian V., Kühn K., Alves M., Pereira L., Cuniberti G., Melle-Franco M., Lanceros-Méndez S. Catalysts, 10, 2, 234, (2020) |
Erratum: Development of poly(l-lactic acid)-based bending actuators (Polymers, (2020) 12, 1187, 10.3390/polym12051187)Correia D.M., Fernandes L.C., Cruz B.D.D., Botelho G., Bermudez V.Z., Lanceros-Méndez S. Polymers, 12, 11, 2463, 1, (2020) |
Fabrication, characterization and implementation of thermo resistive ticu(N, O) thin films in a polymer injection moldOliveira E., Silva J.P., Laranjeira J., Macedo F., Lanceros-Mendez S., Vaz F., Ferreira A. Materials, 13, 6, 1423, (2020) |
Functional Piezoresistive Polymer-Composites Based on Polycarbonate and Polylactic Acid for Deformation Sensing ApplicationsDios J.R., Gonzalo B., Tubio C.R., Cardoso J., Gonçalves S., Miranda D., Correia V., Viana J.C., Costa P., Lanceros-Méndez S. Macromolecular Materials and Engineering, 305, 12, 2000379, (2020) |
Functional, lightweight materials: Outlook, future trends, and challengesCosta P., Costa C.M., Lanceros-Mendez S. Advanced Lightweight Multifunctional Materials, 503, 507, (2020) |
High deformation multifunctional composites: Materials, processes, and applicationsCosta P., Nunes-Pereira J., Tubio C.R., Dios J.R., Lanceros-Mendez S. Advanced Lightweight Multifunctional Materials, 317, 350, (2020) |
High dielectric constant UV curable polyurethane acrylate/indium tin oxide composites for capacitive sensingMendes-Felipe C., Barbosa J.C., Gonçalves S., Pereira N., Costa C.M., Vilas-Vilela J.L., Lanceros-Mendez S. Composites Science and Technology, 199, 108363, (2020) |
Hydrolytic degradation and cytotoxicity of poly(lactic-co-glycolic acid)/multiwalled carbon nanotubes for bone regenerationDíaz E., Puerto I., Sandonis I., Ribeiro S., Lanceros-Mendez S. Journal of Applied Polymer Science, 137, 10, 48439, (2020) |
Hydrophobic modification of bacterial cellulose using oxygen plasma treatment and chemical vapor depositionLeal S., Cristelo C., Silvestre S., Fortunato E., Sousa A., Alves A., Correia D.M., Lanceros-Mendez S., Gama M. Cellulose, 27, 18, 10733, 10746, (2020) |
Ionic liquid based Fluoropolymer solid electrolytes for Lithium-ion batteriesSerra J.P., Pinto R.S., Barbosa J.C., Correia D.M., Gonçalves R., Silva M.M., Lanceros-Mendez S., Costa C.M. Sustainable Materials and Technologies, 25, e00176, (2020) |
Ionic Liquid–Polymer Composites: A New Platform for Multifunctional ApplicationsCorreia D.M., Fernandes L.C., Martins P.M., García-Astrain C., Costa C.M., Reguera J., Lanceros-Méndez S. Advanced Functional Materials, 30, 24, 1909736, (2020) |
Lithium-ion battery separator membranes based on poly(L-lactic acid) biopolymerBarbosa J.C., Reizabal A., Correia D.M., Fidalgo-Marijuan A., Gonçalves R., Silva M.M., Lanceros-Mendez S., Costa C.M. Materials Today Energy, 18, 100494, (2020) |
Magnetic and high-dielectric-constant nanoparticle polymer tri-composites for sensor applicationsMooti A., Costa C.M., Maceiras A., Pereira N., Tubio C.R., Vilas J.L., Besbes-Hentati S., Lanceros-Mendez S. Journal of Materials Science, 55, 34, 16234, 16246, (2020) |
Magnetic bioreactor for magneto-, mechano-and electroactive tissue engineering strategiesCastro N., Fernandes M.M., Ribeiro C., Correia V., Minguez R., Lanceros-Méndez S. Sensors (Switzerland), 20, 12, 3340, 1, 13, (2020) |
Magnetic field into multifunctional materials: Magnetorheological, magnetostrictive, and magnetocaloricMartins P., Lanceros-Mendez S. Advanced Lightweight Multifunctional Materials, 391, 405, (2020) |
Magnetic materials for magnetoelectric coupling: An unexpected journeyLima A.C., Pereira N., Martins P., Lanceros-Mendez S. Handbook of Magnetic Materials, 29, 57, 110, (2020) |
Magnetic proximity sensor based on magnetoelectric composites and printed coilsPereira N., Lima A.C., Correia V., Perinka N., Lanceros-Mendez S., Martins P. Materials, 13, 7, 1729, (2020) |
Magnetic response dependence of ZNO based thin films on Ag doping and processing architectureSantos J.G.S., Correa M.A., Ferreira A., Carvalho B.R., da Silva R.B., Bohn F., Lanceiros-Méndez S., Vaz F. Materials, 13, 13, 2907, 1, 12, (2020) |
Magnetically Activated Electroactive Microenvironments for Skeletal Muscle Tissue RegenerationRibeiro S., Ribeiro C., Carvalho E.O., Tubio C.R., Castro N., Pereira N., Correia V., Gomes A.C., Lanceros-Méndez S. ACS Applied Bio Materials, 3, 7, 4239, 4252, (2020) |
Magnetoelectrics: Three centuries of research heading towards the 4.0 industrial revolutionPereira N., Lima A.C., Lanceros-Mendez S., Martins P. Materials, 13, 18, 4033, (2020) |
Metal-Organic Framework Based PVDF Separators for High Rate Cycling Lithium-Ion BatteriesValverde A., Gonçalves R., Silva M.M., Wuttke S., Fidalgo-Marijuan A., Costa C.M., Vilas-Vilela J.L., Laza J.M., Arriortua M.I., Lanceros-Méndez S., Fernández De Luis R. ACS Applied Energy Materials, 3, 12, 11907, 11919, (2020) |
Modulation of the magnetoimpedance effect of ZnO:Ag/NiFe heterostructures by thermal annealingFerreira A., Correa M.A., Lanceros-Méndez S., Bohn F., Vaz F. Journal of Materials Science, 55, 14, 5961, 5968, (2020) |
Morphology dependence degradation of electro-and magnetoactive poly(3-hydroxybutyrateco-hydroxyvalerate) for tissue engineering applicationsAmaro L., Correia D.M., Martins P.M., Botelho G., Carabineiro S.A.C., Ribeiro C., Lanceros-Mendez S. Polymers, 12, 4, 953, (2020) |
Multilayer passive radiative selective cooling coating based on Al/SiO2/SiNx/SiO2/TiO2/SiO2 prepared by dc magnetron sputteringCunha N.F., AL-Rjoub A., Rebouta L., Vieira L.G., Lanceros-Mendez S. Thin Solid Films, 694, 137736, (2020) |
Optically transparent silk fibroin/silver nanowire composites for piezoresistive sensing and object recognitionsReizabal A., Gonçalves S., Pereira N., Costa C.M., Pérez L., Vilas-Vilela J.L., Lanceros-Mendez S. Journal of Materials Chemistry C, 8, 37, 13053, 13062, (2020) |
Overview on lightweight, multifunctional materialsCosta P., Costa C.M., Lanceros-Mendez S. Advanced Lightweight Multifunctional Materials, 1, 24, (2020) |
Patterned piezoelectric scaffolds for osteogenic differentiationMarques-Almeida T., Cardoso V.F., Gama M., Lanceros-Mendez S., Ribeiro C. International Journal of Molecular Sciences, 21, 21, 8352, 1, 8, (2020) |
Photocatalytic and antimicrobial multifunctional nanocomposite membranes for emerging pollutants water treatment applicationsSalazar H., Martins P.M., Santos B., Fernandes M.M., Reizabal A., Sebastián V., Botelho G., Tavares C.J., Vilas-Vilela J.L., Lanceros-Mendez S. Chemosphere, 250, 126299, (2020) |
Physically Active Bioreactors for Tissue Engineering ApplicationsCastro N., Ribeiro S., Fernandes M.M., Ribeiro C., Cardoso V., Correia V., Minguez R., Lanceros-Mendez S. Advanced Biosystems, 4, 10, 2000125, (2020) |
Plasma-treated Bombyx mori cocoon separators for high-performance and sustainable lithium-ion batteriesPereira R.F.P., Gonçalves R., Gonçalves H.M.R., Correia D.M., Costa C.M., Silva M.M., Lanceros-Méndez S., de Zea Bermudez V. Materials Today Sustainability, 9, 100041, (2020) |
Poly(vinylidene) fluoride membranes coated by heparin/collagen layer-by-layer, smart biomimetic approaches for mesenchymal stem cell cultureGuillot-Ferriols M., Rodríguez-Hernández J.C., Correia D.M., Carabineiro S.A.C., Lanceros-Méndez S., Gómez Ribelles J.L., Gallego Ferrer G. Materials Science and Engineering C, 117, 111281, (2020) |
Polymer-based actuators: back to the futureMartins P., Correia D.M., Correia V., Lanceros-Mendez S. Physical Chemistry Chemical Physics, 22, 27, 15163, 15182, (2020) |
Polymer-based membranes for oily wastewater remediationZioui D., Salazar H., Aoudjit L., Martins P.M., Lanceros-Méndez S. Polymers, 12, 1, 42, (2020) |
Polymers for advanced lithium-ion batteries: State of the art and future needs on polymers for the different battery componentsCosta C.M., Lizundia E., Lanceros-Méndez S. Progress in Energy and Combustion Science, 79, 100846, (2020) |
Polysaccharide-based in situ self-healing hydrogels for tissue engineering applicationsMaiz-Fernández S., Pérez-álvarez L., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Mendez S. Polymers, 12, 10, 2261, 1, 33, (2020) |
Preface and AcknowledgmentsCosta P., Costa C.M., Lanceros-Mendez S. Advanced Lightweight Multifunctional Materials, xv, xvii, (2020) |
Recent advances and future challenges in printed batteriesCosta C.M., Gonçalves R., Lanceros-Méndez S. Energy Storage Materials, 28, 216, 234, (2020) |
Reconfigurable 3D-printable magnets with improved maximum energy productBrito-Pereira R., Ribeiro C., Peřinka N., Lanceros-Mendez S., Martins P. Journal of Materials Chemistry C, 8, 3, 952, 958, (2020) |
Selective Antimicrobial Performance of Biosynthesized Silver Nanoparticles by Horsetail Extract Against E. coliMiljković M., Lazić V., Davidović S., Milivojević A., Papan J., Fernandes M.M., Lanceros-Mendez S., Ahrenkiel S.P., Nedeljković J.M. Journal of Inorganic and Organometallic Polymers and Materials, 30, 7, 2598, 2607, (2020) |
Silica nanoparticles surface charge modulation of the electroactive phase content and physical-chemical properties of poly(vinylidene fluoride) nanocompositesRibeiro S., Meira R.M., Correia D.M., Tubio C.R., Ribeiro C., Baleizão C., Lanceros-Méndez S. Composites Part B: Engineering, 185, 107786, (2020) |
Silk Fibroin Based Magnetic Nanocomposites for Actuator ApplicationsReizabal A., Costa C.M., Pereira N., Pérez-Álvarez L., Vilas-Vilela J.-L., Lanceros-Méndez S. Advanced Engineering Materials, 22, 6, 2000111, (2020) |
Silk fibroin magnetoactive nanocomposite films and membranes for dynamic bone tissue engineering strategiesReizabal A., Brito-Pereira R., Fernandes M.M., Castro N., Correia V., Ribeiro C., Costa C.M., Perez L., Vilas J.L., Lanceros-Méndez S. Materialia, 12, 100709, (2020) |
Spray-printed magnetoelectric multifunctional compositesMartins P., Nunes J.S., Oliveira J., Peřinka N., Lanceros-Mendez S. Composites Part B: Engineering, 187, 107829, (2020) |
Surface Charge-Mediated Cell-Surface Interaction on Piezoelectric MaterialsRibeiro S., Puckert C., Ribeiro C., Gomes A.C., Higgins M.J., Lanceros-Méndez S. ACS Applied Materials and Interfaces, 12, 1, 191, 199, (2020) |
Synthetic polymer-based membranes for lithium-ion batteriesMartins P.M., Nunes-Pereira J., Lanceros-Méndez S., Costa C.M. Synthetic Polymeric Membranes for Advanced Water Treatment, Gas Separation, and Energy Sustainability, 383, 415, (2020) |
Tailoring Electrical and Mechanical Properties of All-Natural Polymer Composites for Environmentally Friendlier ElectronicsRincón-Iglesias M., Lizundia E., Costa C.M., Lanceros-Méndez S. ACS Applied Polymer Materials, 2, 4, 1448, 1457, (2020) |
Tailoring electroactive poly(vinylidene fluoride‐co-trifluoroethylene) microspheres by a nanoprecipitation methodMacedo A.S., Carvalho E.O., Cardoso V.F., Correia D.M., Tubio C.R., Fidalgo-Marijuan A., Botelho G., Lanceros-Méndez S. Materials Letters, 261, 127018, (2020) |
Tailoring Electrospun Poly(l -lactic acid) Nanofibers as Substrates for Microfluidic ApplicationsPimentel E.S., Brito-Pereira R., Marques-Almeida T., Ribeiro C., Vaz F., Lanceros-Mendez S., Cardoso V.F. ACS Applied Materials and Interfaces, 12, 1, 60, 69, (2020) |
Tailoring silk fibroin separator membranes pore size for improving performance of lithium ion batteriesReizabal A., Gonçalves R., Fidalgo-Marijuan A., Costa C.M., Pérez L., Vilas J.-L., Lanceros-Mendez S. Journal of Membrane Science, 598, 117678, (2020) |
The role of CNC surface modification on the structural, thermal and electrical properties of poly(vinylidene fluoride) nanocompositesRincón-Iglesias M., Lizundia E., Correia D.M., Costa C.M., Lanceros-Méndez S. Cellulose, 27, 7, 3821, 3834, (2020) |
Theoretical simulation of different 3D separator geometries for lithium-ion batteriesMiranda D., Gonçalves R., Miranda F., Almeida A.M., Costa C.M., Lanceros-Mendez S. AIP Conference Proceedings, 2293, 260005, (2020) |
Triboelectric energy harvesting response of different polymer‐based materialsRodrigues‐marinho T., Castro N., Correia V., Costa P., Lanceros‐méndez S. Materials, 13, 21, 4980, 1, 12, (2020) |
Tuning properties of cerium dioxide nanoparticles by surface modification with catecholate-type of ligandsLazić V., Živković L.S., Sredojević D., Fernandes M.M., Lanceros-Mendez S., Ahrenkiel S.P., Nedeljković J.M. Langmuir, 36, 33, 9738, 9746, (2020) |
UV curable nanocomposites with tailored dielectric responseMendes-Felipe C., Rodrigues-Marinho T., Vilas J.L., Lanceros-Mendez S. Polymer, 196, 122498, (2020) |
Vineyard calcium sprays induce changes in grape berry skin, firmness, cell wall composition and expression of cell wall-related genesMartins V., Garcia A., Alhinho A.T., Costa P., Lanceros-Méndez S., Costa M.M.R., Gerós H. Plant Physiology and Biochemistry, 150, 49, 55, (2020) |
Water-based 2D printing of magnetically active cellulose derivative nanocompositesRincón-Iglesias M., Delgado A., Peřinka N., Lizundia E., Lanceros-Méndez S. Carbohydrate Polymers, 233, 115855, (2020) |
Water-Based Graphene Inks for All-Printed Temperature and Deformation SensorsFranco M., Alves R., Perinka N., Tubio C., Costa P., Lanceros-Mendéz S. ACS Applied Electronic Materials, 2, 9, 2857, 2867, (2020) |
β-Glycerol phosphate/genipin chitosan hydrogels: A comparative study of their properties and diclofenac deliveryMaiz-Fernández S., Guaresti O., Pérez-Álvarez L., Ruiz-Rubio L., Gabilondo N., Vilas-Vilela J.L., Lanceros-Mendez S. Carbohydrate Polymers, 248, 116811, (2020) |
3D cytocompatible composites of PCL/magnetiteDíaz E., Valle M.B., Ribeiro S., Lanceros-Mendez S., Barandiarán J.M. Materials, 12, 23, 3843, (2019) |
A new approach for the fabrication of cytocompatible PLLA-magnetite nanoparticle composite scaffoldsDíaz E., Valle M.B., Ribeiro S., Lanceros-Mendez S., Barandiarán J.M. International Journal of Molecular Sciences, 20, 19, 4664, (2019) |
All-printed multilayer materials with improved magnetoelectric responseLima A.C., Pereira N., Policia R., Ribeiro C., Correia V., Lanceros-Mendez S., Martins P. Journal of Materials Chemistry C, 7, 18, 5394, 5400, (2019) |
Binary polyamide hybrid composites containing carbon allotropes and metal particles with radiofrequency shielding effectOliveira F., Dencheva N., Lanceros-Méndez S., Nunes T., Denchev Z. Polymer Composites, 40, S2, E1338, E1352, (2019) |
Bioinspired Three-Dimensional Magnetoactive Scaffolds for Bone Tissue EngineeringFernandes M.M., Correia D.M., Ribeiro C., Castro N., Correia V., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 11, 48, 45265, 45275, (2019) |
Carbonaceous filler type and content dependence of the physical-chemical and electromechanical properties of thermoplastic elastomer polymer compositesDios J.R., García-Astrain C., Costa P., Viana J.C., Lanceros-Méndez S. Materials, 12, 9, 1405, (2019) |
Ceramic nanoparticles and carbon nanotubes reinforced thermoplastic materials for piezocapacitive sensing applicationsMarinho T., Costa P., Lizundia E., Costa C.M., Corona-Galván S., Lanceros-Méndez S. Composites Science and Technology, 183, 107804, (2019) |
Compositional, optical and electrical characteristics of SiOx thin films deposited by reactive pulsed DC magnetron sputteringCarneiro J.O., Machado F., Rebouta L., Vasilevskiy M.I., Lanceros-Méndez S., Teixeira V., Costa M.F., Samantilleke A.P. Coatings, 9, 8, 468, (2019) |
Development of bio-hybrid piezoresistive nanocomposites using silk-elastin protein copolymersCorreia D.M., Ribeiro S., da Costa A., Ribeiro C., Casal M., Lanceros-Mendez S., Machado R. Composites Science and Technology, 172, 134, 142, (2019) |
Effect of the active material type and battery geometry on the thermal behavior of lithium-ion batteriesMiranda D., Almeida A.M., Lanceros-Méndez S., Costa C.M. Energy, 185, 1250, 1262, (2019) |
Electroactive Smart Materials: Novel Tools for Tailoring Bacteria Behavior and Fight Antimicrobial ResistanceFernandes M.M., Carvalho E.O., Lanceros-Mendez S. Frontiers in Bioengineering and Biotechnology, 7, 277, (2019) |
Electromechanical properties of PVDF-based polymers reinforced with nanocarbonaceous fillers for pressure sensing applicationsVicente J., Costa P., Lanceros-Mendez S., Abete J.M., Iturrospe A. Materials, 12, 21, 3545, (2019) |
Enhanced performance of fluorinated separator membranes for lithium ion batteries through surface micropatterningGonçalves R., Marques-Almeida T., Miranda D., Silva M.M., Cardoso V.F., Costa C.M., Lanceros-Méndez S. Energy Storage Materials, 21, 124, 135, (2019) |
Environmentally Friendly Printable Piezoelectric Inks and Their Application in the Development of All-Printed Touch ScreensGonçalves S., Serrado-Nunes J., Oliveira J., Pereira N., Hilliou L., Costa C.M., Lanceros-Méndez S. ACS Applied Electronic Materials, 1, 8, 1678, 1687, (2019) |
High performance piezoresistive response of nanostructured ZnO/Ag thin films for pressure sensing applicationsFerreira A., Silva J.P., Rodrigues R., Martin N., Lanceros-Méndez S., Vaz F. Thin Solid Films, 691, 137587, (2019) |
Highly Sensitive Humidity Sensor Based on Ionic Liquid-Polymer CompositesFernandes L.C., Correia D.M., Pereira N., Tubio C.R., Lanceros-Méndez S. ACS Applied Polymer Materials, 1, 10, 2723, 2730, (2019) |
Highly Sensitive Piezoresistive Graphene-Based Stretchable Composites for Sensing ApplicationsCosta P., Gonçalves S., Mora H., Carabineiro S.A.C., Viana J.C., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 11, 49, 46286, 46295, (2019) |
Hydrogel-based magnetoelectric microenvironments for tissue stimulationHermenegildo B., Ribeiro C., Pérez-Álvarez L., Vilas J.L., Learmonth D.A., Sousa R.A., Martins P., Lanceros-Méndez S. Colloids and Surfaces B: Biointerfaces, 181, 1041, 1047, (2019) |
Improved response of ionic liquid-based bending actuators by tailored interaction with the polar fluorinated polymer matrixDias J.C., Correia D.M., Costa C.M., Ribeiro C., Maceiras A., Vilas J.L., Botelho G., de Zea Bermudez V., Lanceros-Mendez S. Electrochimica Acta, 296, 598, 607, (2019) |
Influence of Cation and Anion Type on the Formation of the Electroactive β-Phase and Thermal and Dynamic Mechanical Properties of Poly(vinylidene fluoride)/Ionic Liquids BlendsCorreia D.M., Costa C.M., Lizundia E., Sabater I Serra R., Gómez-Tejedor J.A., Biosca L.T., Meseguer-Dueñas J.M., Gomez Ribelles J.L., Lanceros-Méndez S. Journal of Physical Chemistry C, (2019) |
Ionic Liquid Cation Size-Dependent Electromechanical Response of Ionic Liquid/Poly(vinylidene fluoride)-Based Soft ActuatorsCorreia D.M., Barbosa J.C., Costa C.M., Reis P.M., Esperança J.M.S.S., De Zea Bermudez V., Lanceros-Méndez S. Journal of Physical Chemistry C, 123, 20, 12744, 12752, (2019) |
Ionic-Liquid-Based Electroactive Polymer Composites for Muscle Tissue EngineeringMeira R.M., Correia D.M., Ribeiro S., Costa P., Gomes A.C., Gama F.M., Lanceros-Méndez S., Ribeiro C. ACS Applied Polymer Materials, 1, 10, 2649, 2658, (2019) |
Ionic-Liquid-Based Printable Materials for Thermochromic and Thermoresistive ApplicationsFernandes L.C., Correia D.M., García-Astrain C., Pereira N., Tariq M., Esperança J.M.S.S., Lanceros-Méndez S. ACS Applied Materials and Interfaces, 11, 22, 20316, 20324, (2019) |
Magnetic Field Perturbations by Thermoelectric EffectsFerreira N.J., Antunes P.J., Viana J.C., Fernandes L.C., Fernandez E., Lanceros-Mendez S. Proceedings of 2019 ESA Workshop on Aerospace EMC, Aerospace EMC 2019, 8788964, (2019) |
Magnetic ionic liquid/polymer composites: Tailoring physico-chemical properties by ionic liquid content and solvent evaporation temperatureCorreia D.M., Fernandes L.C., García-Astrain C., Tariq M., Esperança J.M.S.S., de Zea Bermudez V., Lanceros-Méndez S. Composites Part B: Engineering, 178, 107516, (2019) |
Mesoporous Cellulose Nanocrystal Membranes as Battery Separators for Environmentally Safer Lithium-Ion BatteriesGoncąlves R., Lizundia E., Silva M.M., Costa C.M., Lanceros-Méndez S. ACS Applied Energy Materials, 2, 5, 3749, 3761, (2019) |
Mesoporous poly(vinylidene fluoride-co-trifluoroethylene) membranes for lithium-ion battery separatorsCosta C.M., Kundu M., Dias J.C., Nunes-Pereira J., Botelho G., Silva M.M., Lanceros-Méndez S. Electrochimica Acta, 301, 97, 106, (2019) |
Micro- and nanostructured piezoelectric polymers: Fundamentals and applicationCastro N., Pereira N., Cardoso V.F., Ribeiro C., Lanceros-Mendez S. Frontiers of Nanoscience, 14, 35, 65, (2019) |
Molecular relaxation and ionic conductivity of ionic liquids confined in a poly(vinylidene fluoride) polymer matrix: Influence of anion and cation typeCorreia D.M., Costa C.M., Sabater i Serra R., Gómez Tejedor J.A., Teruel Biosca L., de Zea Bermudez V., Esperança J.M.S.S., Reis P.M., Andrio Balado A., Meseguer-Dueñas J.M., Lanceros-Méndez S., Gomez Ribelles J.L. Polymer, 171, 58, 69, (2019) |
Multidimensional biomechanics approaches though electrically and magnetically active microenvironmentsRibeiro S., Garcia-Astrain C., Fernandes M.M., Lanceros-Mendez S., Ribeiro C. Advances in Biomechanics and Tissue Regeneration, 253, 267, (2019) |
Nanostructured Ti 1-x Cu x thin films with tailored electrical and morphological anisotropyFerreira A., Pedrosa P., Martin N., Yazdi M.A.P., Billard A., Lanceros-Méndez S., Vaz F. Thin Solid Films, 672, 47, 54, (2019) |
Optimized silk fibroin piezoresistive nanocomposites for pressure sensing applications based on natural polymersReizabal A., Gonçalves S., Brito-Pereira R., Costa P., Costa C.M., Pérez-Álvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. Nanoscale Advances, 1, 6, 2284, 2292, (2019) |
Photocatalytic microporous membrane against the increasing problem of water emerging pollutantsMartins P.M., Ribeiro J.M., Teixeira S., Petrovykh D.Y., Cuniberti G., Pereira L., Lanceros-Méndez S. Materials, 12, 10, 1649, (2019) |
Piezoresistive performance of polymer-based materials as a function of the matrix and nanofiller content to walking detection applicationDios J.R., Garcia-Astrain C., Gonçalves S., Costa P., Lanceros-Méndez S. Composites Science and Technology, 181, 107678, (2019) |
Polymer-based magnetoelectric materials: To be or not to beMartins P., Lanceros-Méndez S. Applied Materials Today, 15, 558, 561, (2019) |
Polymer-based separators for lithium-ion batteriesBarbosa J.C., Costa C.M., Lanceros-Méndez S. Nanomaterials for Electrochemical Energy Storage Devices, 429, 465, (2019) |
Polymeric Electrospun Fibrous Dressings for Topical Co-delivery of Acyclovir and Omega-3 Fatty AcidsCosta T., Ribeiro A., Machado R., Ribeiro C., Lanceros-Mendez S., Cavaco-Paulo A., Almeida A., das Neves J., Lúcio M., Viseu T. Frontiers in Bioengineering and Biotechnology, 7, 390, (2019) |
Recent advances on separator membranes for lithium-ion battery applications: From porous membranes to solid electrolytesCosta C.M., Lee Y.-H., Kim J.-H., Lee S.-Y., Lanceros-Méndez S. Energy Storage Materials, 22, 346, 375, (2019) |
Recent developments on printed photodetectors for large area and flexible applicationsOliveira J., Brito-Pereira R., Gonçalves B.F., Etxebarria I., Lanceros-Mendez S. Organic Electronics, 66, 216, 226, (2019) |
Recent Progress on Piezoelectric, Pyroelectric, and Magnetoelectric Polymer-Based Energy-Harvesting DevicesCosta P., Nunes-Pereira J., Pereira N., Castro N., Gonçalves S., Lanceros-Mendez S. Energy Technology, 7, 7, 1800852, (2019) |
Silk Fibroin Bending Actuators as an Approach Toward Natural Polymer Based Active MaterialsReizabal A., Correia D.M., Costa C.M., Perez-Alvarez L., Vilas-Vilela J.L., Lanceros-Méndez S. ACS Applied Materials and Interfaces, 11, 33, 30197, 30206, (2019) |
Solid polymer electrolytes based on lithium bis(trifluoromethanesulfonyl)imide/poly(vinylidene fluoride -co-hexafluoropropylene) for safer rechargeable lithium-ion batteriesGonçalves R., Miranda D., Almeida A.M., Silva M.M., Meseguer-Dueñas J.M., Ribelles J.L.G., Lanceros-Méndez S., Costa C.M. Sustainable Materials and Technologies, 21, e00104, (2019) |
State-of-the-Art and Future Challenges of UV Curable Polymer-Based Smart Materials for Printing TechnologiesMendes-Felipe C., Oliveira J., Etxebarria I., Vilas-Vilela J.L., Lanceros-Mendez S. Advanced Materials Technologies, 4, 3, 1800618, (2019) |
Stimuli responsive UV cured polyurethane acrylated/carbon nanotube composites for piezoresistive sensingMendes-Felipe C., Oliveira J., Costa P., Ruiz-Rubio L., Iregui A., González A., Vilas J.L., Lanceros-Mendez S. European Polymer Journal, 120, 109226, (2019) |
Surface wettability modification of poly(vinylidene fluoride) and copolymer films and membranes by plasma treatmentCorreia D.M., Nunes-Pereira J., Alikin D., Kholkin A.L., Carabineiro S.A.C., Rebouta L., Rodrigues M.S., Vaz F., Costa C.M., Lanceros-Méndez S. Polymer, 169, 138, 147, (2019) |
Tailoring Bacteria Response by Piezoelectric StimulationCarvalho E.O., Fernandes M.M., Padrao J., Nicolau A., Marqués-Marchán J., Asenjo A., Gama F.M., Ribeiro C., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 11, 30, 27297, 27305, (2019) |
The effect of increasing Si content in the absorber layers (CrAlSiN x /CrAlSiO y N x ) of solar selective absorbers upon their selectivity and thermal stabilityAL-Rjoub A., Rebouta L., Costa P., Cunha N.F., Lanceros-Mendez S., Barradas N.P., Alves E. Applied Surface Science, 481, 1096, 1102, (2019) |
Theoretical simulation of the influence of cathode formulation on lithium-ion battery performanceMiranda D., Miranda F., Almeida A.M., Lanceros-Méndez S., Costa C.M. AIP Conference Proceedings, 2116, 250008, (2019) |
Theoretical simulation of the optimal relation between active material, binder and conductive additive for lithium-ion battery cathodesMiranda D., Gören A., Costa C.M., Silva M.M., Almeida A.M., Lanceros-Méndez S. Energy, 172, 68, 78, (2019) |
Thermal activation of charge carriers in ionic and electronic semiconductor β-AgIVVO3 and β-AgIVVO3@VV1.6VIV0.4O4.8 composite xerogelsFernández De Luis R., Larrea E.S., Orive J., Lezama L., Costa C.M., Lanceros-Méndez S., Arriortua M.I. RSC Advances, 9, 72, 42439, 42449, (2019) |
Transparent Magnetoelectric Materials for Advanced Invisible Electronic ApplicationsPolícia R., Lima A.C., Pereira N., Calle E., Vázquez M., Lanceros-Mendez S., Martins P. Advanced Electronic Materials, 5, 12, 1900280, (2019) |
Tuning Myoblast and Preosteoblast Cell Adhesion Site, Orientation, and Elongation through Electroactive Micropatterned ScaffoldsMarques-Almeida T., Cardoso V.F., Ribeiro S., Gama F.M., Ribeiro C., Lanceros-Mendez S. ACS Applied Bio Materials, 2, 4, 1591, 1602, (2019) |
Water-Soluble Cellulose Derivatives as Suitable Matrices for Multifunctional MaterialsRincón-Iglesias M., Lizundia E., Lanceros-Méndez S. Biomacromolecules, 20, 7, 2786, 2795, (2019) |
A new approach for preparation of metal-containing polyamide/carbon textile laminate composites with tunable electrical conductivityOliveira F., Dencheva N., Martins P., Lanceros-Méndez S., Denchev Z. Journal of Materials Science, 53, 16, 11444, 11459, (2018) |
Advances in Magnetic Nanoparticles for Biomedical ApplicationsCardoso V.F., Francesko A., Ribeiro C., Bañobre-López M., Martins P., Lanceros-Mendez S. Advanced Healthcare Materials, 7, 5, 1700845, (2018) |
Bombyx mori Silkworm Cocoon Separators for Lithium-Ion Batteries with Superior Safety and SustainabilityPereira R.F.P., Gonçalves R., Fernandes M., Costa C.M., Silva M.M., de Zea Bermudez V., Lanceros-Mendez S. Advanced Sustainable Systems, 2, 12, 1800098, (2018) |
Computer simulation of the influence of thermal conditions on the performance of conventional and unconventional lithium-ion battery geometriesMiranda D., Costa C.M., Almeida A.M., Lanceros-Méndez S. Energy, 149, 262, 278, (2018) |
Crystallization kinetics of poly(ethylene oxide) confined in semicrystalline poly(vinylidene) fluorideTamaño-Machiavello M.N., Costa C.M., Romero-Colomer F.J., María Meseguer Dueñas J., Lanceros-Mendez S., Luis Gómez Ribelles J. Journal of Polymer Science, Part B: Polymer Physics, 56, 7, 588, 597, (2018) |
Design and fabrication of multilayer inkjet-printed passive components for printed electronics circuit developmentCorreia V., Mitra K.Y., Castro H., Rocha J.G., Sowade E., Baumann R.R., Lanceros-Mendez S. Journal of Manufacturing Processes, 31, 364, 371, (2018) |
Development of a contactless DC current sensor with high linearity and sensitivity based on the magnetoelectric effectCastro N., Reis S., Silva M.P., Correia V., Lanceros-Mendez S., Martins P. Smart Materials and Structures, 27, 6, 065012, (2018) |
Development of magnetically active scaffolds for bone regenerationDíaz E., Valle M.B., Ribeiro S., Lanceros-Mendez S., Barandiarán J.M. Nanomaterials, 8, 9, 678, (2018) |
Electroactive biomaterial surface engineering effects on muscle cells differentiationRibeiro S., Gomes A.C., Etxebarria I., Lanceros-Méndez S., Ribeiro C. Materials Science and Engineering C, 92, 868, 874, (2018) |
Electroactive poly(vinylidene fluoride)-based structures for advanced applicationsRibeiro C., Costa C.M., Correia D.M., Nunes-Pereira J., Oliveira J., Martins P., Gonçalves R., Cardoso V.F., Lanceros-Méndez S. Nature Protocols, 13, 4, 681, 704, (2018) |
Evaluation of the Physicochemical Properties and Active Response of Piezoelectric Poly(vinylidene fluoride- co-trifluoroethylene) as a Function of Its MicrostructureGonçalves R., Cardoso V.F., Pereira N., Oliveira J., Nunes-Pereira J., Costa C.M., Lanceros-Méndez S. Journal of Physical Chemistry C, 122, 21, 11433, 11441, (2018) |
Fluorinated polymers as smart materials for advanced biomedical applicationsCardoso V.F., Correia D.M., Ribeiro C., Fernandes M.M., Lanceros-Méndez S. Polymers, 10, 2, 161, (2018) |
Highly effective clean-up of magnetic nanoparticles using microfluidic technologyCardoso V.F., Miranda D., Botelho G., Minas G., Lanceros-Méndez S. Sensors and Actuators, B: Chemical, 255, 2384, 2391, (2018) |
Highly efficient removal of fluoride from aqueous media through polymer composite membranesNunes-Pereira J., Lima R., Choudhary G., Sharma P.R., Ferdov S., Botelho G., Sharma R.K., Lanceros-Méndez S. Separation and Purification Technology, 205, 1, 10, (2018) |
Improved electrochemical performance of rare earth doped LiMn1.5-xNi0.5RExO4 based composite cathodes for lithium-ion batteriesRam P., Gören A., Gonçalves R., Choudhary G., Ferdov S., Silva M.M., Singhal R., Costa C.M., Sharma R.K., Lanceros-Méndez S. Composites Part B: Engineering, 139, 55, 63, (2018) |
Improving Magnetoelectric Contactless Sensing and Actuation through Anisotropic NanostructuresFernandes M.M., Mora H., Barriga-Castro E.D., Luna C., Mendoza-Reséndez R., Ribeiro C., Lanceros-Mendez S., Martins P. Journal of Physical Chemistry C, 122, 33, 19189, 19196, (2018) |
Indirect X-ray Detectors Based on Inkjet-Printed Photodetectors with a Screen-Printed Scintillator LayerOliveira J., Correia V., Sowade E., Etxebarria I., Rodriguez R.D., Mitra K.Y., Baumann R.R., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 10, 15, 12904, 12912, (2018) |
Ionic and conformational mobility in poly(vinylidene fluoride)/ionic liquid blends: Dielectric and electrical conductivity behaviorCorreia D.M., Sabater i Serra R., Gómez Tejedor J.A., de Zea Bermudez V., Andrio Balado A., Meseguer-Dueñas J.M., Gomez Ribelles J.L., Lanceros-Méndez S., Costa C.M. Polymer, 143, 164, 172, (2018) |
Layer-by-layer fabrication of highly transparent polymer based piezoelectric transducersCardoso V.F., Marques-Almeida T., Rodrigues-Marinho T., Minas G., Rebouta L., Lanceros-Mendez S. Materials Research Express, 5, 6, 065313, (2018) |
Low-field giant magneto-ionic response in polymer-based nanocompositesCorreia D.M., Martins P., Tariq M., Esperança J.M.S.S., Lanceros-Méndez S. Nanoscale, 10, 33, 15747, 15754, (2018) |
Magnetoelectric coupling in nanoscale 0-1 connectivityZong Y., Yue Z., Martins P., Zhuang J., Du Y., Lanceros-Mendez S., Higgins M.J. Nanoscale, 10, 36, 17370, 17377, (2018) |
Multifunctional electromechanical and thermoelectric polyaniline-poly(vinyl acetate) latex composites for wearable devicesHorta Romarís L., González Rodríguez M.V., Huang B., Costa P., Lasagabáster Latorre A., Lanceros-Mendez S., Abad López M.J. Journal of Materials Chemistry C, 6, 31, 8502, 8512, (2018) |
Multifunctional magnetically responsive biocomposites based on genetically engineered silk-elastin-like proteinFernandes M.M., Correia D.M., da Costa A., Ribeiro S., Casal M., Lanceros-Méndez S., Machado R. Composites Part B: Engineering, 153, 413, 419, (2018) |
Multifunctional platform based on electroactive polymers and silica nanoparticles for tissue engineering applicationsRibeiro S., Ribeiro T., Ribeiro C., Correia D.M., Farinha J.P.S., Gomes A.C., Baleizão C., Lanceros-Méndez S. Nanomaterials, 8, 11, 933, (2018) |
Nano-sculptured Janus-like TiAg thin films obliquely deposited by GLAD co-sputtering for temperature sensingPedrosa P., Ferreira A., Martin N., Arab Pour Yazdi M., Billard A., Lanceros-Méndez S., Vaz F. Nanotechnology, 29, 35, 355706, (2018) |
On the use of surfactants for improving nanofiller dispersion and piezoresistive response in stretchable polymer compositesCosta P., Maceiras A., San Sebastián M., García-Astrain C., Vilas J.L., Lanceros-Mendez S. Journal of Materials Chemistry C, 6, 39, 10580, 10588, (2018) |
Optimized Magnetodielectric Coupling on High-Temperature Polymer-Based NanocompositesMaceiras A., Marinho T., Vilas J.L., Carbó-Argibay E., Kolen'Ko Y.V., Martins P., Lanceros-Mendez S. Journal of Physical Chemistry C, 122, 3, 1821, 1827, (2018) |
Photocatalytic reusable membranes for the effective degradation of tartrazine with a solar photoreactorAoudjit L., Martins P.M., Madjene F., Petrovykh D.Y., Lanceros-Mendez S. Journal of Hazardous Materials, 344, 408, 416, (2018) |
Piezo-and Magnetoelectric Polymers as Biomaterials for Novel Tissue Engineering StrategiesRibeiro C., Correia D.M., Ribeiro S., Fernandes M.M., Lanceros-Mendez S. MRS Advances, 3, 30, 1671, 1676, (2018) |
Piezoresistive polymer blends for electromechanical sensor applicationsCosta P., Oliveira J., Horta-Romarís L., Abad M.-J., Moreira J.A., Zapiráin I., Aguado M., Galván S., Lanceros-Mendez S. Composites Science and Technology, 168, 353, 362, (2018) |
Piezoresistive response of extruded polyaniline/(styrene-butadiene-styrene) polymer blends for force and deformation sensorsTeixeira J., Horta-Romarís L., Abad M.-J., Costa P., Lanceros-Méndez S. Materials and Design, 141, 1, 8, (2018) |
Poly(styrene-butene/ethylene-styrene): A New Polymer Binder for High-Performance Printable Lithium-Ion Battery ElectrodesGonçalves R., Oliveira J., Silva M.P., Costa P., Hilliou L., Silva M.M., Costa C.M., Lanceros-Méndez S. ACS Applied Energy Materials, 1, 7, 3331, 3341, (2018) |
Poly(vinylidene fluoride) composites with carbon nanotubes decorated with metal nanoparticlesNunes-Pereira J., Sharma P., Fernandes L.C., Oliveira J., Moreira J.A., Sharma R.K., Lanceros-Mendez S. Composites Part B: Engineering, 142, 1, 8, (2018) |
Polymer Nanocomposite-Based Strain Sensors with Tailored Processability and Improved Device IntegrationCosta P., Carvalho M.F., Correia V., Viana J.C., Lanceros-Mendez S. ACS Applied Nano Materials, 1, 6, 3015, 3025, (2018) |
Polymer-based smart materials by printing technologies: Improving application and integrationOliveira J., Correia V., Castro H., Martins P., Lanceros-Mendez S. Additive Manufacturing, 21, 269, 283, (2018) |
Printed Wheatstone bridge with embedded polymer based piezoresistive sensors for strain sensing applicationsCastro H.F., Correia V., Pereira N., Costab P., Oliveiraa J., Lanceros-Méndez S. Additive Manufacturing, 20, 119, 125, (2018) |
Recent advances in poly(Vinylidene fluoride) and its copolymers for lithium-ion battery separatorsBarbosa J.C., Dias J.P., Lanceros-Méndez S., Costa C.M. Membranes, 8, 3, 45, (2018) |
Relation between fiber orientation and mechanical properties of nano-engineered poly(vinylidene fluoride) electrospun composite fiber matsMaciel M.M., Ribeiro S., Ribeiro C., Francesko A., Maceiras A., Vilas J.L., Lanceros-Méndez S. Composites Part B: Engineering, 139, 146, 154, (2018) |
Silica/poly(vinylidene fluoride) porous composite membranes for lithium-ion battery separatorsCosta C.M., Kundu M., Cardoso V.F., Machado A.V., Silva M.M., Lanceros-Méndez S. Journal of Membrane Science, 564, 842, 851, (2018) |
Silk Fibroin Separators: A Step Toward Lithium-Ion Batteries with Enhanced SustainabilityPereira R.F.P., Brito-Pereira R., Gonçalves R., Silva M.P., Costa C.M., Silva M.M., De Zea Bermudez V., Lanceros-Méndez S. ACS Applied Materials and Interfaces, 10, 6, 5385, 5394, (2018) |
Silk fibroin-magnetic hybrid composite electrospun fibers for tissue engineering applicationsBrito-Pereira R., Correia D.M., Ribeiro C., Francesko A., Etxebarria I., Pérez-Álvarez L., Vilas J.L., Martins P., Lanceros-Mendez S. Composites Part B: Engineering, 141, 70, 75, (2018) |
Stretchable scintillator composites for indirect X-ray detectorsOliveira J., Correia V., Costa P., Francesko A., Rocha G., Lanceros-Mendez S. Composites Part B: Engineering, 133, 226, 231, (2018) |
Tailored biodegradable and electroactive poly(Hydroxybutyrate-co-hydroxyvalerate) based morphologies for tissue engineering applicationsAmaro L., Correia D.M., Marques-Almeida T., Martins P.M., Pérez L., Vilas J.L., Botelho G., Lanceros-Mendez S., Ribeiro C. International Journal of Molecular Sciences, 19, 8, 2149, (2018) |
Theoretical design of high-performance polymer-based magnetoelectric of fibrilar structuresLehmann Fernández C.S., Pereira N., Martins P., Lanceros-Méndez S. Composites Science and Technology, 155, 126, 136, (2018) |
TiO2/graphene and TiO2/graphene oxide nanocomposites for photocatalytic applications: A computer modeling and experimental studyMartins P.M., Ferreira C.G., Silva A.R., Magalhães B., Alves M.M., Pereira L., Marques P.A.A.P., Melle-Franco M., Lanceros-Méndez S. Composites Part B: Engineering, 145, 39, 46, (2018) |
Tuning electrical resistivity anisotropy of ZnO thin films for resistive sensor applicationsFerreira A., Martin N., Lanceros-Méndez S., Vaz F. Thin Solid Films, 654, 93, 99, (2018) |
Water based scintillator ink for printed X-ray radiation detectorsOliveira J., Martins P.M., Correia V., Hilliou L., Petrovykh D., Lanceros-Mendez S. Polymer Testing, 69, 26, 31, (2018) |
Capture and separation of L-histidine through optimized zinc-decorated magnetic silica spheresCardoso V.F., Sebastián V., Silva C.J.R., Botelho G., Lanceros-Méndez S. Colloids and Surfaces B: Biointerfaces, 157, 48, 55, (2017) |
Cellulose-based magnetoelectric compositesZong Y., Zheng T., Martins P., Lanceros-Mendez S., Yue Z., Higgins M.J. Nature Communications, 8, 1, 38, (2017) |
Crystal Morphology Control of Synthetic Giniite by Alkaline Cations and pH VariationsGonçalves R., Martins R., Costa C.M., Ferdov S., Lanceros-Méndez S. Crystal Growth and Design, 17, 9, 4710, 4714, (2017) |
Cyclic temperature dependence of electrical conductivity in polyanilines as a function of the dopant and synthesis methodHorta-Romarís L., Abad M.-J., González-Rodríguez M.V., Lasagabáster A., Costa P., Lanceros-Méndez S. Materials and Design, 114, 288, 296, (2017) |
Development of water-based printable piezoresistive sensors for large strain applicationsGonçalves B.F., Oliveira J., Costa P., Correia V., Martins P., Botelho G., Lanceros-Mendez S. Composites Part B: Engineering, 112, 344, 352, (2017) |
Evaluation and optimization of the magnetoelectric response of CoFe2O4/poly(vinylidene fluoride) composite spheres by computer simulationLehmann Fernández C.S., Pereira N., Lanceros-Méndez S., Martins P. Composites Science and Technology, 146, 119, 130, (2017) |
Fabrication and characterization of high-performance polymer-based magnetoelectric DC magnetic field sensors devicesReis S., Castro N., Silva M.P., Correia V., Rocha J.G., Martins P., Lanceros-Mendez S. IEEE Transactions on Industrial Electronics, 64, 6, 2668989, 4928, 4934, (2017) |
High-performance graphene-based carbon nanofiller/polymer composites for piezoresistive sensor applicationsCosta P., Nunes-Pereira J., Oliveira J., Silva J., Moreira J.A., Carabineiro S.A.C., Buijnsters J.G., Lanceros-Mendez S. Composites Science and Technology, 153, 241, 252, (2017) |
Human mesenchymal stem cells growth and osteogenic differentiation on piezoelectric poly(Vinylidene fluoride) microsphere substratesSobreiro-Almeida R., Tamaño-Machiavello M.N., Carvalho E.O., Cordón L., Doria S., Senent L., Correia D.M., Ribeiro C., Lanceros-Méndez S., Sabater I Serra R., Gomez Ribelles J.L., Sempere A. International Journal of Molecular Sciences, 18, 11, 2391, (2017) |
In vivo demonstration of the suitability of piezoelectric stimuli for bone reparationRibeiro C., Correia D.M., Rodrigues I., Guardão L., Guimarães S., Soares R., Lanceros-Méndez S. Materials Letters, 209, 118, 121, (2017) |
Influence of the sputtering pressure on the morphological features and electrical resistivity anisotropy of nanostructured titanium filmsPedrosa P., Ferreira A., Cote J.-M., Martin N., Yazdi M.A.P., Billard A., Lanceros-Mendez S., Vaz F. Applied Surface Science, 420, 681, 690, (2017) |
Kinetic study of thermal degradation of chitosan as a function of deacetylation degreeGámiz-González M.A., Correia D.M., Lanceros-Mendez S., Sencadas V., Gómez Ribelles J.L., Vidaurre A. Carbohydrate Polymers, 167, 52, 58, (2017) |
Local probing of magnetoelectric properties of PVDF/Fe3O4 electrospun nanofibers by piezoresponse force microscopyZheng T., Yue Z., Wallace G.G., Du Y., Martins P., Lanceros-Mendez S., Higgins M.J. Nanotechnology, 28, 6, 065707, (2017) |
Magnetic cellulose nanocrystal nanocomposites for the development of green functional materialsLizundia E., Maceiras A., Vilas J.L., Martins P., Lanceros-Mendez S. Carbohydrate Polymers, 175, 425, 432, (2017) |
Magnetoelectric response on Terfenol-D/ P(VDF-TrFE) two-phase compositesBrito-Pereira R., Ribeiro C., Lanceros-Mendez S., Martins P. Composites Part B: Engineering, 120, 97, 102, (2017) |
Marked object recognition multitouch screen printed touchpad for interactive applicationsNunes J.S., Castro N., Gonçalves S., Pereira N., Correia V., Lanceros-Mendez S. Sensors (Switzerland), 17, 12, 2786, (2017) |
Membranes based on polymer miscibility for selective transport and separation of metallic ionsZioui D., Arous O., Mameri N., Kerdjoudj H., Sebastian M.S., Vilas J.L., Nunes-Pereira J., Lanceros-Méndez S. Journal of Hazardous Materials, 336, 188, 194, (2017) |
Metallic glass/PVDF magnetoelectric laminates for resonant sensors and actuators: A reviewGutiérrez J., Lasheras A., Martins P., Pereira N., Barandiarán J.M., Lanceros-Mendez S. Sensors (Switzerland), 17, 6, 1251, (2017) |
Metamorphic biomaterialsCardoso V.F., Ribeiro C., Lanceros-Mendez S. Bioinspired Materials for Medical Applications, 69, 99, (2017) |
Mild hydrothermal synthesis and crystal morphology control of LiFePO4 by lithium nitrateMartins R., Gonçalves R., Costa C.M., Ferdov S., Lanceros-Méndez S. Nano-Structures and Nano-Objects, 11, 82, 87, (2017) |
Nanodiamonds/poly(vinylidene fluoride) composites for tissue engineering applicationsNunes-Pereira J., Silva A.R., Ribeiro C., Carabineiro S.A.C., Buijnsters J.G., Lanceros-Méndez S. Composites Part B: Engineering, 111, 37, 44, (2017) |
On the Relevance of the Polar β-Phase of Poly(vinylidene fluoride) for High Performance Lithium-Ion Battery SeparatorsKundu M., Costa C.M., Dias J., Maceiras A., Vilas J.L., Lanceros-Méndez S. Journal of Physical Chemistry C, 121, 47, 26216, 26225, (2017) |
Photocatalytic degradation of recalcitrant micropollutants by reusable Fe3O4/SiO2/TiO2 particlesTeixeira S., Mora H., Blasse L.-M., Martins P.M., Carabineiro S.A.C., Lanceros-Méndez S., Kühn K., Cuniberti G. Journal of Photochemistry and Photobiology A: Chemistry, 345, 27, 35, (2017) |
Piezoresistive Polymer-Based Materials for Real-Time Assessment of the Stump/Socket Interface Pressure in Lower Limb AmputeesFerreira A., Correia V., Mendes E., Lopes C., Vaz J.F.V., Lanceros-Mendez S. IEEE Sensors Journal, 17, 7, 7850965, 2182, 2190, (2017) |
Preparation of Poly(vinylidene fluoride) Lithium-Ion Battery Separators and Their Compatibilization with Ionic Liquid – A Green Solvent ApproachCosta C.M., Rodrigues H.M., Gören A., Machado A.V., Silva M.M., Lanceros-Méndez S. ChemistrySelect, 2, 19, 5394, 5402, (2017) |
Relationship between nano-architectured Ti1−xCux thin film and electrical resistivity for resistance temperature detectorsFerreira A., Borges J., Lopes C., Rodrigues M.S., Lanceros-Mendez S., Vaz F. Journal of Materials Science, 52, 9, 4878, 4885, (2017) |
Synthesis and improved electrochemical performance of LiMn2 – xGdxO4 based cathodesRam P., Gören A., Ferdov S., Silva M.M., Choudhary G., Singhal R., Costa C.M., Sharma R.K., Lanceros-Méndez S. Solid State Ionics, 300, 18, 25, (2017) |
Temperature and frequency dependence of the dielectric and piezoelectric response of P(VDF-TrFE)/CoFe2O4 magnetoelectric composites [Dielektrinio ir pjezoelektrinio atsako temperatŪrinĖs ir daŽninĖs priklausomybĖs magnetoelektriniuose P(VDF-TrFE)/CoFe2o4 kompozituose]Svirskas Š., Belovickis J., Šemeliovas D., Martins P., Lanceros-Méndez S., Banys J. Lithuanian Journal of Physics, 57, 2, 103, 111, (2017) |
The influence of copolymer composition on PLGA/nHA scaffolds’ cytotoxicity and in vitro degradationDíaz E., Puerto I., Ribeiro S., Lanceros-Mendez S., Barandiarán J.M. Nanomaterials, 7, 7, 173, (2017) |
Thermal analysis of lithium-ion batteries with square frame geometries by theoretical simulationsMiranda D., Miranda F., Costa C.M., Almeida A.M., Lanceros-Méndez S. AIP Conference Proceedings, 1863, 440005, (2017) |
Wide-range magnetoelectric response on hybrid polymer composites based on filler type and contentMartins P., Silva M., Reis S., Pereira N., Amorín H., Lanceros-Mendez S. Polymers, 9, 2, 62, (2017) |
A green solvent strategy for the development of piezoelectric poly(vinylidene fluoride-trifluoroethylene) films for sensors and actuators applicationsNunes-Pereira J., Martins P., Cardoso V.F., Costa C.M., Lanceros-Méndez S. Materials and Design, 104, 183, 189, (2016) |
All-inkjet-printed low-pass filters with adjustable cutoff frequency consisting of resistors, inductors and transistors for sensor applicationsCastro H.F., Correia V., Sowade E., Mitra K.Y., Rocha J.G., Baumann R.R., Lanceros-Méndez S. Organic Electronics, 38, 205, 212, (2016) |
Characterization of Metglas/poly(vinylidene fluoride)/Metglas magnetoelectric laminates for AC/DC magnetic sensor applicationsReis S., Silva M.P., Castro N., Correia V., Martins P., Lasheras A., Gutierrez J., Barandiarán J.M., Rocha J.G., Lanceros-Mendez S. Materials and Design, 92, 906, 910, (2016) |
Ciprofloxacin wastewater treated by UVA photocatalysis: Contribution of irradiated TiO2 and ZnO nanoparticles on the final toxicity as assessed by Vibrio fischeriSilva A.R., Martins P.M., Teixeira S., Carabineiro S.A.C., Kuehn K., Cuniberti G., Alves M.M., Lanceros-Mendez S., Pereira L. RSC Advances, 6, 98, 95494, 95503, (2016) |
Comparative efficiency of TiO2 nanoparticles in suspension vs. immobilization into P(VDF-TrFE) porous membranesMartins P.M., Miranda R., Marques J., Tavares C.J., Botelho G., Lanceros-Mendez S. RSC Advances, 6, 15, 12708, 12716, (2016) |
Comparative study of sol-gel methods for the facile synthesis of tailored magnetic silica spheresCardoso V.F., Irusta S., Navascues N., Lanceros-Mendez S. Materials Research Express, 3, 7, 075402, (2016) |
Computer simulation evaluation of the geometrical parameters affecting the performance of two dimensional interdigitated batteriesMiranda D., Costa C.M., Almeida A.M., Lanceros-Méndez S. Journal of Electroanalytical Chemistry, 780, 1, 11, (2016) |
Computer simulations of the influence of geometry in the performance of conventional and unconventional lithium-ion batteriesMiranda D., Costa C.M., Almeida A.M., Lanceros-Méndez S. Applied Energy, 165, 318, 328, (2016) |
Development of poly(vinylidene fluoride)/ionic liquid electrospun fibers for tissue engineering applicationsDias J.C., Correia D.C., Lopes A.C., Ribeiro S., Ribeiro C., Sencadas V., Botelho G., Esperança J.M.S.S., Laza J.M., Vilas J.L., León L.M., Lanceros-Méndez S. Journal of Materials Science, 51, 9, 4442, 4450, (2016) |
Differentiation of mesenchymal stem cells for cartilage tissue engineering: Individual and synergetic effects of three-dimensional environment and mechanical loadingPanadero J.A., Lanceros-Mendez S., Ribelles J.L.G. Acta Biomaterialia, 33, 1, 12, (2016) |
Effect of anion type in the performance of ionic liquid/poly(vinylidene fluoride) electromechanical actuatorsMejri R., Dias J.C., Hentati S.B., Martins M.S., Costa C.M., Lanceros-Mendez S. Journal of Non-Crystalline Solids, 453, 8, 15, (2016) |
Effect of cyano dipolar groups on the performance of lithium-ion battery electrospun polyimide gel electrolyte membranesMaceiras A., Gören A., Sencadas V., Costa C.M., Vilas J.L., Lanceros-Méndez S., León L.M. Journal of Electroanalytical Chemistry, 778, 57, 65, (2016) |
Electromechanical actuators based on poly(vinylidene fluoride) with [N1 1 1 2(OH)][NTf2] and [C2mim] [C2SO4]Dias J.C., Martins M.S., Ribeiro S., Silva M.M., Esperança J.M.S.S., Ribeiro C., Botelho G., Costa C.M., Lanceros-Mendez S. Journal of Materials Science, 51, 20, 9490, 9503, (2016) |
Electronic optimization for an energy harvesting system based on magnetoelectric Metglas/poly(vinylidene fluoride)/Metglas compositesReis S., Silva M.P., Castro N., Correia V., Rocha J.G., Martins P., Lasheras A., Gutierrez J., Lanceros-Mendez S. Smart Materials and Structures, 25, 8, 085028, (2016) |
Finite-Size Effects in the Absorption Spectra of a Single-Wall Carbon NanotubeSilva J., Oliveira M.J.T., Lanceros-Mendez S., Nogueira F. Journal of Physical Chemistry C, 120, 32, 18268, 18274, (2016) |
From superhydrophobic- to superhydrophilic-patterned poly(vinylidene fluoride-co-chlorotrifluoroethylene) architectures as a novel platform for biotechnological applicationsCardoso V.F., Machado A.R., Pinto V.C., Sousa P.J., Botelho G., Minas G., Lanceros-Méndez S. Journal of Polymer Science, Part B: Polymer Physics, 54, 18, 1802, 1810, (2016) |
Giant Electric-Field-Induced Strain in PVDF-Based Battery Separator Membranes Probed by Electrochemical Strain MicroscopyRomanyuk K., Costa C.M., Luchkin S.Y., Kholkin A.L., Lanceros-Méndez S. Langmuir, 32, 21, 5267, 5276, (2016) |
Green solvent approach for printable large deformation thermoplastic elastomer based piezoresistive sensors and their suitability for biomedical applicationsGonçalves B.F., Costa P., Oliveira J., Ribeiro S., Correia V., Botelho G., Lanceros-Mendez S. Journal of Polymer Science, Part B: Polymer Physics, 54, 20, 2092, 2103, (2016) |
High performance screen printable lithium-ion battery cathode ink based on C-LiFePO4Sousa R.E., Oliveira J., Gören A., Miranda D., Silva M.M., Hilliou L., Costa C.M., Lanceros-Mendez S. Electrochimica Acta, 196, 92, 100, (2016) |
High performance screen-printed electrodes prepared by a green solvent approach for lithium-ion batteriesGören A., Mendes J., Rodrigues H.M., Sousa R.E., Oliveira J., Hilliou L., Costa C.M., Silva M.M., Lanceros-Méndez S. Journal of Power Sources, 334, 65, 77, (2016) |
Imidazolium-based ionic liquid type dependence of the bending response of polymer actuatorsMejri R., Dias J.C., Besbes Hentati S., Botelho G., Esperança J.M.S.S., Costa C.M., Lanceros- Mendez S. European Polymer Journal, 85, 445, 451, (2016) |
Improved magnetodielectric coefficient on polymer based composites through enhanced indirect magnetoelectric couplingMartins P., Silva D., Silva M.P., Lanceros-Mendez S. Applied Physics Letters, 109, 11, 112905, (2016) |
Improved performance of rare earth doped LiMn2O4 cathodes for lithium-ion battery applicationsRam P., Gören A., Ferdov S., Silva M.M., Singhal R., Costa C.M., Sharma R.K., Lanceros-Méndez S. New Journal of Chemistry, 40, 7, 6244, 6252, (2016) |
Increasing X-ray to visible transduction performance of Gd2O3:Eu3+PVDF composites by PPO/POPOP additionOliveira J., Martins P.M., Martins P., Correia V., Rocha J.G., Lanceros-Mendez S. Composites Part B: Engineering, 91, 610, 614, (2016) |
Influence of fluoropolymer binders on the electrochemical performance of C-LiFePO4 based cathodesGören A., Costa C.M., Silva M.M., Lanceros-Mendez S. Solid State Ionics, 295, 57, 64, (2016) |
Magnetically Controlled Drug Release System through Magnetomechanical ActuationBarbosa J., Correia D.M., Gonçalves R., Ribeiro C., Botelho G., Martins P., Lanceros-Mendez S. Advanced Healthcare Materials, 5, 23, 3027, 3034, (2016) |
MC3T3-E1 Cell Response to Ti1-xAgx and Ag-TiNx Electrodes Deposited on Piezoelectric Poly(vinylidene fluoride) Substrates for Sensor ApplicationsMarques S.M., Rico P., Carvalho I., Gómez Ribelles J.L., Fialho L., Lanceros-Méndez S., Henriques M., Carvalho S. ACS Applied Materials and Interfaces, 8, 6, 4199, 4207, (2016) |
Optimization of filler type within poly(vinylidene fluoride-co-trifluoroethylene) composite separator membranes for improved lithium-ion battery performanceNunes-Pereira J., Kundu M., Gören A., Silva M.M., Costa C.M., Liu L., Lanceros-Méndez S. Composites Part B: Engineering, 96, 94, 102, (2016) |
Optimized anisotropic magnetoelectric response of Fe61.6Co16.4Si10.8B11.2/PVDF/Fe61.6Co16.4Si10.8B11.2 laminates for AC/DC magnetic field sensingReis S., Silva M.P., Castro N., Correia V., Gutierrez J., Lasheras A., Lanceros-Mendez S., Martins P. Smart Materials and Structures, 25, 5, 055050, (2016) |
Piezoresistive response of nano-architectured TixCuy thin films for sensor applicationsFerreira A., Borges J., Lopes C., Martin N., Lanceros-Mendez S., Vaz F. Sensors and Actuators, A: Physical, 247, 105, 114, (2016) |
Piezoresistive response of spray-printed carbon nanotube/poly(vinylidene fluoride) compositesFerreira A., Lanceros-Mendez S. Composites Part B: Engineering, 96, 242, 247, (2016) |
Poly(vinylidene fluoride-hexafluoropropylene)/bayerite composite membranes for efficient arsenic removal from waterSalazar H., Nunes-Pereira J., Correia D.M., Cardoso V.F., Gonçalves R., Martins P.M., Ferdov S., Martins M.D., Botelho G., Lanceros-Méndez S. Materials Chemistry and Physics, 183, 430, 438, (2016) |
Preparation and properties of metal-containing polyamide hybrid composites via reactive microencapsulationBrêda C., Dencheva N., Lanceros-Méndez S., Denchev Z. Journal of Materials Science, 51, 23, 10534, 10554, (2016) |
Processing and size range separation of pristine and magnetic poly(l-lactic acid) based microspheres for biomedical applicationsCorreia D.M., Sencadas V., Ribeiro C., Martins P.M., Martins P., Gama F.M., Botelho G., Lanceros-Méndez S. Journal of Colloid and Interface Science, 476, 79, 86, (2016) |
Proving the suitability of magnetoelectric stimuli for tissue engineering applicationsRibeiro C., Correia V., Martins P., Gama F.M., Lanceros-Mendez S. Colloids and Surfaces B: Biointerfaces, 140, 430, 436, (2016) |
Reusability of photocatalytic TiO 2 and ZnO nanoparticles immobilized in poly(vinylidene difluoride)-co-trifluoroethyleneTeixeira S., Martins P.M., Lanceros-Méndez S., Kühn K., Cuniberti G. Applied Surface Science, 384, 497, 504, (2016) |
Strain analysis on Ti1 - XAgx and Ag-TiNx electrodes deposited on polymer based sensorsMarques S.M., Costa P., Lanceros-Mendez S., Carvalho S. Thin Solid Films, 604, 55, 62, (2016) |
Strong increase of the dielectric response of carbon nanotube/poly(vinylidene fluoride) composites induced by carbon nanotube type and pre-treatmentCosta P., Silva J., Lanceros Mendez S. Composites Part B: Engineering, 93, 310, 316, (2016) |
Superhydrophilic poly(l-lactic acid) electrospun membranes for biomedical applications obtained by argon and oxygen plasma treatmentCorreia D.M., Ribeiro C., Botelho G., Borges J., Lopes C., Vaz F., Carabineiro S.A.C., MacHado A.V., Lanceros-Méndez S. Applied Surface Science, 371, 74, 82, (2016) |
Synthesis and size dependent magnetostrictive response of ferrite nanoparticles and their application in magnetoelectric polymer-based multiferroic sensorsGonçalves R., Larrea A., Sebastian M.S., Sebastian V., Martins P., Lanceros-Mendez S. Journal of Materials Chemistry C, 4, 45, 10701, 10706, (2016) |
Synthesis of highly magnetostrictive nanostructures and their application in a polymer-based magnetoelectric sensing deviceGonçalves R., Larrea A., Zheng T., Higgins M.J., Sebastian V., Lanceros-Mendez S., Martins P. European Polymer Journal, 84, 685, 692, (2016) |
TiO2/graphene oxide immobilized in P(VDF-TrFE) electrospun membranes with enhanced visible-light-induced photocatalytic performanceAlmeida N.A., Martins P.M., Teixeira S., Lopes da Silva J.A., Sencadas V., Kühn K., Cuniberti G., Lanceros-Mendez S., Marques P.A.A.P. Journal of Materials Science, 51, 14, 6974, 6986, (2016) |
Understanding nucleation of the electroactive β-phase of poly(vinylidene fluoride) by nanostructuresSebastian M.S., Larrea A., Gonçalves R., Alejo T., Vilas J.L., Sebastian V., Martins P., Lanceros-Mendez S. RSC Advances, 6, 114, 113007, 113015, (2016) |
Connecting free volume with shape memory properties in noncytotoxic gamma-irradiated polycycloocteneAxpe E., García-Huete N., Cuevas J.M., Ribeiro C., Mérida D., Laza J.M., García J.Á., Vilas J.L., Lanceros-Méndez S., Plazaola F., Leõn L.M. Journal of Polymer Science, Part B: Polymer Physics, 53, 15, 1080, 1088, (2015) |
Development of magnetoelectric CoFe2O4 /poly(vinylidene fluoride) microspheresGonçalves R., Martins P., Correia D.M., Sencadas V., Vilas J.L., León L.M., Botelho G., Lanceros-Méndez S. RSC Advances, 5, 45, 35852, 35857, (2015) |
Dielectric relaxation dynamics of high-temperature piezoelectric polyimide copolymersMaceiras A., Costa C.M., Lopes A.C., San Sebastián M., Laza J.M., Vilas J.L., Ribelles J.L.G., Sabater i Serra R., Andrio Balado A., Lanceros-Méndez S., León L.M. Applied Physics A: Materials Science and Processing, 120, 2, 731, 743, (2015) |
Effect of ionic liquid anion and cation on the physico-chemical properties of poly(vinylidene fluoride)/ionic liquid blendsMejri R., Dias J.C., Lopes A.C., Bebes Hentati S., Silva M.M., Botelho G., Mão De Ferro A., Esperança J.M.S.S., Maceiras A., Laza J.M., Vilas J.L., León L.M., Lanceros-Mendez S. European Polymer Journal, 71, 304, 313, (2015) |
High-temperature polymer based magnetoelectric nanocompositesMaceiras A., Martins P., Gonҫalves R., Botelho G., Venkata Ramana E., Mendiratta S.K., San Sebastián M., Vilas J.L., Lanceros-Mendez S., León L.M. European Polymer Journal, 64, 224, 228, (2015) |
Effect of filler dispersion and dispersion method on the piezoelectric and magnetoelectric response of CoFe 2 O 4 /P(VDF-TrFE) nanocompositesMartins P., Gonçalves R., Lanceros-Mendez S., Lasheras A., Gutiérrez J., Barandiarán J.M. Applied Surface Science, 313, 215, 219, (2014) |
Synthesis and characterization of novel piezoelectric nitrile copolyimide films for high temperature sensor applicationsMaceiras A., Martins P., San Sebastián M., Lasheras A., Silva M., Laza J.M., Vilas J.L., Gutierrez J., Lanceros-Mendez S., Barandiarán J.M., León L.M. Smart Materials and Structures, 23, 10, 105015, (2014) |
Born and brought up in India, studied Materials Chemistry at Jamia Millia Islamia, New Delhi (India) and finished his Ph.D. (2006) from National Physical laboratory in the field of Materials chemistry. Subsequently he moved to the Max Planck Institute for Polymer Research, as Alexander von Humboldt Fellow to work on surface and interface studies of electrodeposited layers in ionic liquids by scanning probe microscopy. He was a regular visitor at École polytechnique fédérale de Lausanne, where he developed nanoporous films for metal-free electro-catalysis and new redox shuttle. In 2011 he accepted the offer as program head of new concept in photovoltaics and advanced materials and was the strategic hire for the Abengoa Research, a corporate research center of multinational energy based conglomerate Abengoa. He is the recipient of numerous awards and fellowships, and recently his work was endorsed by European research council consolidator grant (2016). He is the inventor of 7 patents, his work has been summarized in >100 articles, along with many popular science artilces, and the publications list reflects his diverse field of interest in the domain of physical chemistry, nanotechnology and materials science. In summer 2017, he accepted the call from Ikerbasque to work as senior professor at Basque center for materials, applications and Nanostructures.
Automated Machine Learning Approach in Material Discovery of Hole Selective Layers for Perovskite Solar CellsYildirim M.O., Gok Yildirim E.C., Eren E., Huang P., Haris M.P.U., Kazim S., Vanschoren J., Uygun Oksuz A., Ahmad S. Energy Technology (In Press) |
Interface engineering of a hole-transport layer/perovskite with low-band-gap 2D-carbon nitrides for solar cell fabricationAshraf M., Hemasiri N.H., Kazim S., Ullah N., Khan M., Adewale Ganiyu S., R. Alhooshani K., Tahir M.N., Ahmad S. Sustainable Energy and Fuels (In Press) |
Amplifying the Performance and Stability of Perovskite Solar Cells Using Fluorinated Salt as the Surface PassivatorGhaderian A., Hemasiri N.H., Ahmad S., Kazim S. Energy Technology, 11, 1, 2200211, (2023) |
Dimers of diethynyl-conjugated zinc-phthalocyanine as hole selective layers for perovskite solar cell fabricationPegu M., Molina D., Álvaro-Martins M.J., Castillo M., Ferrer L., Huang P., Kazim S., Sastre-Santos I., Ahmad S. Journal of Materials Chemistry C, 10, 33, 11975, 11982, (2022) |
Enhancing operational stability in perovskite solar cells by solvent-free encapsulation methodSalado M., Payno D., Ahmad S. Sustainable Energy and Fuels, 6, 9, 2264, 2275, (2022) |
Erratum: The impact of fluorine atoms on a triphenylamine-based dopant-free hole-selective layer for perovskite solar cells (J. Mater. Chem. C (2022) 10 (476–484) DOI: 10.1039/D1TC04972K)Ghaderian A., Pegu M., Hemasiri N.H., Huang P., Ahmad S., Kazim S. Journal of Materials Chemistry C, 10, 8, 3259, (2022) |
Evaluating the Capacitive Response in Metal Halide Perovskite Solar CellsTaukeer Khan M., Khan F., Al-Ahmed A., Ahmad S., Al-Sulaiman F. Chemical Record, 22, 7, e202100330, (2022) |
Impact of Polymeric Hole-Selective Layers on Chemical Inductance in Inverted Perovskite Solar CellsDhifaoui H., Hemasiri N.H., Mehdi H., Bouazizi A., Kazim S., Ahmad S. Energy Technology, 10, 11, 2200624, (2022) |
Leverage of Pyridine Isomer on Phenothiazine Core: Organic Semiconductors as Selective Layers in Perovskite Solar CellsHuang P., Manju, Kazim S., Lezama L., Misra R., Ahmad S. ACS Applied Materials and Interfaces, 14, 4, 5729, 5739, (2022) |
Microstrain and Urbach Energy Relaxation in FAPbI3-Based Solar Cells through Powder Engineering and Perfluoroalkyl Phosphate Ionic Liquid AdditivesHaris M.P.U., Kazim S., Ahmad S. ACS Applied Materials and Interfaces, 14, 21, 24546, 24556, (2022) |
Molecular Interface Engineering via Triazatruxene-Based Moieties/NiOx as Hole-Selective Bilayers in Perovskite Solar Cells for ReliabilityHemasiri N.H., Caliò L., Pegu M., Kazim S., Ahmad S. Solar RRL, 6, 4, 2100793, (2022) |
Predicting Perovskite Bandgap and Solar Cell Performance with Machine LearningGok E.C., Yildirim M.O., Haris M.P.U., Eren E., Pegu M., Hemasiri N.H., Huang P., Kazim S., Uygun Oksuz A., Ahmad S. Solar RRL, 6, 2, 2100927, (2022) |
Reducing the Trap Density in MAPbI3 Based Perovskite Solar Cells via Bromide SubstitutionPegu M., Ghaderian A., Ahmad S., Kazim S. ChemPlusChem, 87, 4, e202200021, (2022) |
Review of degradation and failure phenomena in photovoltaic modulesAghaei M., Fairbrother A., Gok A., Ahmad S., Kazim S., Lobato K., Oreski G., Reinders A., Schmitz J., Theelen M., Yilmaz P., Kettle J. Renewable and Sustainable Energy Reviews, 159, 112160, (2022) |
Review of technology specific degradation in crystalline silicon, cadmium telluride, copper indium gallium selenide, dye sensitised, organic and perovskite solar cells in photovoltaic modules: Understanding how reliability improvements in mature technologies can enhance emerging technologiesKettle J., Aghaei M., Ahmad S., Fairbrother A., Irvine S., Jacobsson J.J., Kazim S., Kazukauskas V., Lamb D., Lobato K., Mousdis G.A., Oreski G., Reinders A., Schmitz J., Yilmaz P., Theelen M.J. Progress in Photovoltaics: Research and Applications, 30, 12, 1365, 1392, (2022) |
Strategic factors to design the next generation of molecular water oxidation catalysts: Lesson learned from ruthenium complexesGhaderian A., Kazim S., Khaja Nazeeruddin M., Ahmad S. Coordination Chemistry Reviews, 450, 214256, (2022) |
Structural and photophysical investigation of single-source evaporation of CsFAPbI3 and FAPbI3 perovskite thin filmsKlipfel N., Haris M.P.U., Kazim S., Sutanto A.A., Shibayama N., Kanda H., Asiri A.M., Momblona C., Ahmad S., Nazeeruddin M.K. Journal of Materials Chemistry C, 10, 27, 10075, 10082, (2022) |
Substituents interplay in piperidinyl-perylenediimide as dopant-free hole-selective layer for perovskite solar cells fabricationPayno D., Salado M., Andresini M., Gutiérrez-Moreno D., Huang P., Ciriaco F., Kazim S., Sastre-Santos Á., Fernández-Lázaro F., Ahmad S. Emergent Materials, 5, 4, 977, 985, (2022) |
The impact of fluorine atoms on a triphenylamine-based dopant-free hole-selective layer for perovskite solar cellsGhaderian A., Pegu M., Hemasiri N.H., Huang P., Ahmad S., Kazim S. Journal of Materials Chemistry C, 10, 2, 476, 484, (2022) |
The versatility of polymers in perovskite solar cellsGhaderian A., Heiran R., Kazim S., Ahmad S. Journal of Materials Chemistry C, 4, (2022) |
1T-Rich 2D-WS2as an interfacial agent to escalate photo-induced charge transfer dynamics in dopant-free perovskite solar cellsHarindu Hemasiri N., Kazim S., Ahmad S. Journal of Materials Chemistry C, 9, 31, 9865, 9873, (2021) |
A Machine Learning Approach for Metal Oxide Based Polymer Composites as Charge Selective Layers in Perovskite Solar CellsYildirim M.O., Gok E.C., Hemasiri N.H., Eren E., Kazim S., Oksuz A.U., Ahmad S. ChemPlusChem, 86, 5, 785, 793, (2021) |
Advanced research trends in dye-sensitized solar cellsKokkonen M., Talebi P., Zhou J., Asgari S., Soomro S.A., Elsehrawy F., Halme J., Ahmad S., Hagfeldt A., Hashmi S.G. Journal of Materials Chemistry A, 9, 17, 10527, 10545, (2021) |
An Approach to Quantify the Negative Capacitance Features in a Triple-Cation based Perovskite Solar CellsDhifaoui H., Hemasiri N.H., Aloui W., Bouazizi A., Kazim S., Ahmad S. Advanced Materials Interfaces, 8, 22, 2101002, (2021) |
Asymmetrically Substituted Phthalocyanines as Dopant-Free Hole Selective Layers for Reliability in Perovskite Solar CellsHuang P., Hernández A., Kazim S., Follana-Berná J., Ortiz J., Lezama L., Sastre-Santos Á., Ahmad S. ACS Applied Energy Materials, 4, 9, 10124, 10135, (2021) |
Deciphering the Orientation of the Aromatic Spacer Cation in Bilayer Perovskite Solar Cells through Spectroscopic TechniquesPegu M., Kazim S., Buffeteau T., Bassani D.M., Ahmad S. ACS Applied Materials and Interfaces, 13, 40, 48219, 48227, (2021) |
Decoding the charge carrier dynamics in triple cation-based perovskite solar cellsKhan M.T., Hemasiri N.H., Kazim S., Ahmad S. Sustainable Energy and Fuels, 5, 24, 6352, 6360, (2021) |
Energy level engineering of charge selective contact and halide perovskite by modulating band offset: Mechanistic insightsRaoui Y., Ez-Zahraouy H., Kazim S., Ahmad S. Journal of Energy Chemistry, 54, 822, 829, (2021) |
Harnessing the potential of lead-free Sn-Ge based perovskite solar cells by unlocking the recombination channelsRaoui Y., Kazim S., Galagan Y., Ez-Zahraouy H., Ahmad S. Sustainable Energy and Fuels, 5, 18, 4661, 4667, (2021) |
Impact of cation substitution in all solution-processed Cu2(Cd, Zn)SnS4superstrate solar cellsPayno D., Kazim S., Ahmad S. Journal of Materials Chemistry C, 9, 48, 17392, 17400, (2021) |
Interfacial modification of perovskite solar cells via Cs2CO3: Computational and experimental approachRaoui Y., Pegu M., Kazim S., Ahmad S. Solar Energy, 228, 700, 705, (2021) |
Low-Temperature-Processed Perovskite Solar Cells Fabricated from Presynthesized CsFAPbI3PowderHaris M.P.U., Kazim S., Ahmad S. ACS Applied Energy Materials, 4, 3, 2600, 2606, (2021) |
Mechanistic origin and unlocking of negative capacitance in perovskites solar cellsKhan M.T., Huang P., Almohammedi A., Kazim S., Ahmad S. iScience, 24, 2, 102024, (2021) |
N-Bromosuccinimide as an Interfacial Alleviator for Br/I Exchange in Perovskite for Solar Cell FabricationPegu M., Kazim S., Buffeteau T., Bassani D.M., Ahmad S. ACS Applied Energy Materials, 4, 4, 3130, 3140, (2021) |
Protocol for deciphering the electrical parameters of perovskite solar cells using immittance spectroscopyKhan M.T., Huang P., Almohammedi A., Kazim S., Ahmad S. STAR Protocols, 2, 2, 100510, (2021) |
Substance and shadow of formamidinium lead triiodide based solar cellsHaris M.P.U., Kazim S., Pegu M., Deepa M., Ahmad S. Physical Chemistry Chemical Physics, 23, 15, 9049, 9060, (2021) |
Sulfurization temperature effects on crystallization and performance of superstrate CZTS solar cellsPayno D., Kazim S., Salado M., Ahmad S. Solar Energy, 224, 1136, 1143, (2021) |
Tailoring of a Phenothiazine Core for Electrical Conductivity and Thermal Stability: Hole-Selective Layers in Perovskite Solar CellsHuang P., Manju, Kazim S., Lezama L., Misra R., Ahmad S. ACS Applied Materials and Interfaces, 13, 28, 33311, 33320, (2021) |
Tetra-indole core as a dual agent: A hole selective layer that passivates defects in perovskite solar cellsPegu M., Kazim S., Huang P., Lezama L., Ahmad S. Journal of Materials Chemistry C, 9, 22, 7074, 7082, (2021) |
Unravelling the theoretical window to fabricate high performance inorganic perovskite solar cellsRaoui Y., Ez-Zahraouy H., Ahmad S., Kazim S. Sustainable Energy and Fuels, 5, 1, 219, 229, (2021) |
Advances in design engineering and merits of electron transporting layers in perovskite solar cellsPan H., Zhao X., Gong X., Li H., Ladi N.H., Zhang X.L., Huang W., Ahmad S., Ding L., Shen Y., Wang M., Fu Y. Materials Horizons, 7, 9, 2276, 2291, (2020) |
Dibenzo-tetraphenyl diindeno perylene as hole transport layer for high-bandgap perovskite solar cellsPegu M., Caliò L., Ahmadpour M., Rubahn H.-G., Kazim S., Madsen M., Ahmad S. Emergent Materials, 3, 2, 109, 116, (2020) |
Electrical Methods to Elucidate Charge Transport in Hybrid Perovskites Thin Films and DevicesTaukeer Khan M., Almohammedi A., Kazim S., Ahmad S. Chemical Record, 20, 5, 452, 465, (2020) |
Elucidating the Doping Mechanism in Fluorene-Dithiophene-Based Hole Selective Layer Employing Ultrahydrophobic Ionic Liquid DopantHarindu Hemasiri N., Kazim S., Calio L., Paek S., Salado M., Pozzi G., Lezama L., Nazeeruddin M.K., Ahmad S. ACS Applied Materials and Interfaces, 12, 8, 9395, 9403, (2020) |
Interface Engineering by Thiazolium Iodide Passivation Towards Reduced Thermal Diffusion and Performance Improvement in Perovskite Solar CellsSalado M., Andresini M., Huang P., Khan M.T., Ciriaco F., Kazim S., Ahmad S. Advanced Functional Materials, 30, 14, 1910561, (2020) |
Molecularly engineered thienyl-triphenylamine substituted zinc phthalocyanine as dopant free hole transporting materials in perovskite solar cellsHuang P., Hernández A., Kazim S., Ortiz J., Sastre-Santos Á., Ahmad S. Sustainable Energy and Fuels, 4, 12, 6188, 6195, (2020) |
Partial substitution of the CdS buffer layer with interplay of fullerenes in kesterite solar cellsPayno D., Sánchez Y., Blázquez O., Giraldo S., Salado M., Kazim S., Saucedo E., Ahmad S. Journal of Materials Chemistry C, 8, 36, 12533, 12542, (2020) |
Polymer Amplification to Improve Performance and Stability toward Semitransparent Perovskite Solar Cells FabricationNikbakht H., Shalan A.E., Salado M., Assadi A., Boroojerdian P., Kazim S., Ahmad S. Energy Technology, 8, 4, 1900728, (2020) |
Pyridine Bridging Diphenylamine-Carbazole with Linking Topology as Rational Hole Transporter for Perovskite Solar Cells FabricationHuang P., Manju, Kazim S., Sivakumar G., Salado M., Misra R., Ahmad S. ACS Applied Materials and Interfaces, 12, 20, 22881, 22890, (2020) |
Reduced trap density and mitigating the interfacial losses by placing 2D dichalcogenide material at perovskite/HTM interface in a dopant free perovskite solar cellsHemasiri N.H., Kazim S., Ahmad S. Nano Energy, 77, 105292, (2020) |
Tuning of MEH-PPV electro-optical properties by incorporation of benzylidene-malononitrile-based small organic moleculesDhifaoui H., Pegu M., Aloui W., Bouazizi A., Kazim S., Ahmad S. Emergent Materials, 3, 5, 687, 692, (2020) |
Understanding and harnessing the potential of layered perovskite-based absorbers for solar cellsPegu M., Haris M.P.U., Kazim S., Ahmad S. Emergent Materials, 3, 6, 751, 778, (2020) |
Appraisement of Crystal Expansion in CH3NH3PbI3 on Doping: Improved Photovoltaic PropertiesSalado M., Kazim S., Nazeeruddin M.K., Ahmad S. ChemSusChem, 12, 11, 2329, (2019) |
Appraisement of Crystal Expansion in CH3NH3PbI3 on Doping: Improved Photovoltaic PropertiesSalado M., Kazim S., Nazeeruddin M.K., Ahmad S. ChemSusChem, 12, 11, 2329, (2019) |
Dye sensitized photoelectrolysis cellsYun S., Vlachopoulos N., Qurashi A., Ahmad S., Hagfeldt A. Chemical Society Reviews, 48, 14, 3705, 3722, (2019) |
Elucidating the Impact of Charge Selective Contact in Halide Perovskite through Impedance SpectroscopyKhan M.T., Salado M., Almohammedi A., Kazim S., Ahmad S. Advanced Materials Interfaces, 6, 21, 1901193, (2019) |
Layered Ruddlesden–Popper Efficient Perovskite Solar Cells with Controlled Quantum and Dielectric Confinement Introduced via DopingLi H., Wang X., Zhang T., Gong X., Sun Q., Pan H., Shen Y., Ahmad S., Wang M. Advanced Functional Materials, 29, 30, 1903293, (2019) |
Lead-Free Perovskites: Metals Substitution towards Environmentally Benign Solar Cell FabricationShalan A.E., Kazim S., Ahmad S. ChemSusChem, 12, 18, 4116, 4139, (2019) |
Performance analysis of MAPbI3 based perovskite solar cells employing diverse charge selective contacts: Simulation studyRaoui Y., Ez-Zahraouy H., Tahiri N., El Bounagui O., Ahmad S., Kazim S. Solar Energy, 193, 948, 955, (2019) |
Toward Phase Stability: Dion-Jacobson Layered Perovskite for Solar CellsHuang P., Kazim S., Wang M., Ahmad S. ACS Energy Letters, 4, 12, 2960, 2974, (2019) |
A Generic Route of Hydrophobic Doping in Hole Transporting Material to Increase Longevity of Perovskite Solar CellsCaliò L., Salado M., Kazim S., Ahmad S. Joule, 2, 9, 1800, 1815, (2018) |
Benzothiadiazole-triphenylamine as an efficient exciton blocking layer in small molecule based organic solar cellsCaliò L., Patil B.R., Benduhn J., Vandewal K., Rubahn H.-G., Madsen M., Kazim S., Ahmad S. Sustainable Energy and Fuels, 2, 10, 2296, 2302, (2018) |
Design of cyclopentadithiophene-based small organic molecules as hole selective layers for perovskite solar cellsCaliò L., Kazim S., Salado M., Zimmermann I., Nazeeruddin M.K., Ahmad S. Sustainable Energy and Fuels, 2, 10, 2179, 2186, (2018) |
Oxazolium Iodide Modified Perovskites for Solar Cell FabricationSalado M., Shirzadi E., Kazim S., Fei Z., Nazeeruddin M.K., Dyson P.J., Ahmad S. ChemPlusChem, 83, 4, 279, 284, (2018) |
Surface passivation of perovskite layers using heterocyclic halides: Improved photovoltaic properties and intrinsic stabilitySalado M., Jodlowski A.D., Roldan-Carmona C., de Miguel G., Kazim S., Nazeeruddin M.K., Ahmad S. Nano Energy, 50, 220, 228, (2018) |
The role of Cs+ inclusion in formamidinium lead triiodide-based perovskite solar cellSalado M., Kazim S., Ahmad S. Chemical Papers, 72, 7, 1645, 1650, (2018) |
Understanding the influence of interface morphology on the performance of perovskite solar cellsSalado M., Calió L., Contreras-Bernal L., Idígoras J., Anta J.A., Ahmad S., Kazim S. Materials, 11, 7, 1073, (2018) |
Cu(ii) and Zn(ii) based phthalocyanines as hole selective layers for perovskite solar cellsCaliò L., Follana-Berná J., Kazim S., Madsen M., Rubahn H.-G., Sastre-Santos Á., Ahmad S. Sustainable Energy and Fuels, 1, 10, 2071, 2077, (2017) |
System of sequences in multivariate reticular structuresCanossa S., Ji Z., Gropp C., Rong Z., Ploetz E., Wuttke S., Yaghi O.M. Nature Reviews Materials (In Press) |
Conformationally Restricted β-Sheet Breaker Peptides Incorporating Cyclic α-Methylisoserine SulfamidatesMazo N., Navo C.D., Peccati F., Andreo J., Airoldi C., Goldsztejn G., Çarçabal P., Usabiaga I., Sodupe M., Wuttke S., Busto J.H., Peregrina J.M., Cocinero E.J., Jiménez-Osés G. Chemistry - A European Journal, 29, 9, e202202913, (2023) |
Electrospun nanofibers of chitosan/polyvinyl alcohol/UiO-66/nanodiamond: Versatile adsorbents for wastewater remediation and organic dye removalAhmadijokani F., Molavi H., Bahi A., Wuttke S., Kamkar M., Rojas O.J., Ko F., Arjmand M. Chemical Engineering Journal, 457, 141176, (2023) |
Erratum: Toxicity of metal-organic framework nanoparticles: from essential analyses to potential applications (Chem. Soc. Rev. (2022) 51 (464–484) DOI: 10.1039/D1CS00918D)Ettlinger R., Lächelt U., Gref R., Horcajada P., Lammers T., Serre C., Couvreur P., Morris R.E., Wuttke S. Chemical Society Reviews, 52, 3, 1156, (2023) |
Magnetic sustentation as an adsorption characterization technique for paramagnetic metal-organic frameworksBarroso N., Andreo J., Beobide G., Castillo O., Luque A., Pérez-Yáñez S., Wuttke S. Communications Chemistry, 6, 1, 4, (2023) |
A State-of-the-Art of Metal-Organic Frameworks for Chromium Photoreduction vs. Photocatalytic Water RemediationGarcía A., Rodríguez B., Rosales M., Quintero Y.M., G. Saiz P., Reizabal A., Wuttke S., Celaya-Azcoaga L., Valverde A., Fernández de Luis R. Nanomaterials, 12, 23, 4263, (2022) |
AIR CARBON RECYCLING FOR AVIATION FUEL TECHNOLOGYGil V., Tadanaga K., Gröger H., Wuttke S., Gurauskis J., Camargo P., Giudici R., Bonino F., Hadermann J. Proceedings of WHEC 2022 - 23rd World Hydrogen Energy Conference: Bridging Continents by H2, 1286, 1288, (2022) |
Biomimetic Mineralization of Iron-Fumarate Nanoparticles for Protective Encapsulation and Intracellular Delivery of ProteinsMirzazadeh Dizaji N., Lin Y., Bein T., Wagner E., Wuttke S., Lächelt U., Engelke H. Chemistry of Materials, 34, 19, 8684, 8693, (2022) |
Controlled Covalent Self-Assembly of a Homopolymer for Multiscale Materials EngineeringBai X., Sun Q., Cui H., Guerzoni L.P.B., Wuttke S., Kiessling F., De Laporte L., Lammers T., Shi Y. Advanced Materials, 34, 39, 2109701, (2022) |
Cyclic Solid-State Multiple Phase Changes with Tuned Photoemission in a Gold Thiolate Coordination PolymerVeselska O., Vaidya S., Das C., Guillou N., Bordet P., Fateeva A., Toche F., Chiriac R., Ledoux G., Wuttke S., Horike S., Demessence A. Angewandte Chemie - International Edition, 61, 14, e202117261, (2022) |
Designing Metal-Chelator-like Traps by Encoding Amino Acids in Zirconium-Based Metal-Organic FrameworksValverde A., Tovar G.I., Rio-López N.A., Torres D., Rosales M., Wuttke S., Fidalgo-Marijuan A., Porro J.M., Jiménez-Ruiz M., García Sakai V., García A., Laza J.M., Vilas-Vilela J.L., Lezama L., Arriortua M.I., Copello G.J., Fernández De Luis R. Chemistry of Materials, 34, 21, 9666, 9684, (2022) |
How Reproducible are Surface Areas Calculated from the BET Equation?Osterrieth J.W.M., Rampersad J., Madden D., Rampal N., Skoric L., Connolly B., Allendorf M.D., Stavila V., Snider J.L., Ameloot R., Marreiros J., Ania C., Azevedo D., Vilarrasa-Garcia E., Santos B.F., Bu X.-H., Chang Z., Bunzen H., Champness N.R., Griffin S.L., Chen B., Lin R.-B., Coasne B., Cohen S., Moreton J.C., Colón Y.J., Chen L., Clowes R., Coudert F.-X., Cui Y., Hou B., D'Alessandro D.M., Doheny P.W., Dincă M., Sun C., Doonan C., Huxley M.T., Evans J.D., Falcaro P., Ricco R., Farha O., Idrees K.B., Islamoglu T., Feng P., Yang H., Forgan R.S., Bara D., Furukawa S., Sanchez E., Gascon J., Telalović S., Ghosh S.K., Mukherjee S., Hill M.R., Sadiq M.M., Horcajada P., Salcedo-Abraira P., Kaneko K., Kukobat R., Kenvin J., Keskin S., Kitagawa S., Otake K.-I., Lively R.P., DeWitt S.J.A., Llewellyn P., Lotsch B.V., Emmerling S.T., Pütz A.M., Martí-Gastaldo C., Padial N.M., García-Martínez J., Linares N., Maspoch D., Suárez del Pino J.A., Moghadam P., Oktavian R., Morris R.E., Wheatley P.S., Navarro J., Petit C., Danaci D., Rosseinsky M.J., Katsoulidis A.P., Schröder M., Han X., Yang S., Serre C., Mouchaham G., Sholl D.S., Thyagarajan R., Siderius D., Snurr R.Q., Goncalves R.B., Telfer S., Lee S.J., Ting V.P., Rowlandson J.L., Uemura T., Iiyuka T., van der Veen M.A., Rega D., Van Speybroeck V., Rogge S.M.J., Lamaire A., Walton K.S., Bingel L.W., Wuttke S., Andreo J., Yaghi O., Zhang B., Yavuz C.T., Nguyen T.S., Zamora F., Montoro C., Zhou H., Kirchon A., Fairen-Jimenez D. Advanced Materials, 34, 27, 2201502, (2022) |
Living Cell Nanoporation and Exosomal RNA Analysis Platform for Real-Time Assessment of Cellular TherapiesSheng Y., Huang Z., Zhang T., Qian F., Zhu Y., Dong Z., Zhang Q., Lei Q., Kong F., Wang Y., Walden M., Wuttke S., Chang L., Zhu W., Hu J. Journal of the American Chemical Society, 144, 21, 9443, 9450, (2022) |
Long-term whole blood DNA preservation by cost-efficient cryosilicificationZhou L., Lei Q., Guo J., Gao Y., Shi J., Yu H., Yin W., Cao J., Xiao B., Andreo J., Ettlinger R., Jeffrey Brinker C., Wuttke S., Zhu W. Nature Communications, 13, 1, 6265, (2022) |
Metal-Organic Frameworks and Electrospinning: A Happy Marriage for Wastewater TreatmentAhmadijokani F., Molavi H., Bahi A., Fernández R., Alaee P., Wu S., Wuttke S., Ko F., Arjmand M. Advanced Functional Materials, 32, 51, 2207723, (2022) |
MOF Synthesis Prediction Enabled by Automatic Data Mining and Machine Learning**Luo Y., Bag S., Zaremba O., Cierpka A., Andreo J., Wuttke S., Friederich P., Tsotsalas M. Angewandte Chemie - International Edition, 61, 19, e202200242, (2022) |
Multivariate Functionalization of UiO-66 for Photocatalytic Water RemediationValverde A., Payno D., Lezama L., Laza J.M., Wuttke S., Fernández de Luis R. Advanced Sustainable Systems, 6, 7, 2200024, (2022) |
Nanoscience versus Viruses: The SARS-CoV-2 CaseGoscianska J., Freund R., Wuttke S. Advanced Functional Materials, 32, 14, 2107826, (2022) |
Reticular Nanoscience: Bottom-Up Assembly NanotechnologyAndreo J., Ettlinger R., Zaremba O., Peña Q., Lächelt U., De Luis R.F., Freund R., Canossa S., Ploetz E., Zhu W., Diercks C.S., Gröger H., Wuttke S. Journal of the American Chemical Society, 144, 17, 7531, 7550, (2022) |
Single Crystals Heterogeneity Impacts the Intrinsic and Extrinsic Properties of Metal–Organic FrameworksFuchs A., Mannhardt P., Hirschle P., Wang H., Zaytseva I., Ji Z., Yaghi O., Wuttke S., Ploetz E. Advanced Materials, 34, 3, 2104530, (2022) |
Toxicity of metal-organic framework nanoparticles: From essential analyses to potential applicationsEttlinger R., Lächelt U., Gref R., Horcajada P., Lammers T., Serre C., Couvreur P., Morris R.E., Wuttke S. Chemical Society Reviews, 51, 2, 464, 484, (2022) |
Tuning the Synergistic Interplay between Clinical MRI Contrast Agents and MR-Active Metal-Organic Framework NanoparticlesBöll K., Hirschle P., Klingl K., Zimpel A., Hirschle C., Ingrisch M., Dietrich O., Wuttke S., Peller M. Chemistry of Materials, 34, 8, 3862, 3871, (2022) |
25 Years of Reticular ChemistryFreund R., Canossa S., Cohen S.M., Yan W., Deng H., Guillerm V., Eddaoudi M., Madden D.G., Fairen-Jimenez D., Lyu H., Macreadie L.K., Ji Z., Zhang Y., Wang B., Haase F., Wöll C., Zaremba O., Andreo J., Wuttke S., Diercks C.S. Angewandte Chemie - International Edition, 60, 45, 23946, 23974, (2021) |
Applications of reticular diversity in metal–organic frameworks: An ever-evolving state of the artEjsmont A., Andreo J., Lanza A., Galarda A., Macreadie L., Wuttke S., Canossa S., Ploetz E., Goscianska J. Coordination Chemistry Reviews, 430, 213655, (2021) |
Artificial Bioaugmentation of Biomacromolecules and Living Organisms for Biomedical ApplicationsCao J., Zaremba O.T., Lei Q., Ploetz E., Wuttke S., Zhu W. ACS Nano, 15, 3, 3900, 3926, (2021) |
Chitin/Metal-Organic Framework Composites as Wide-Range AdsorbentTovar Jimenez G.I., Valverde A., Mendes-Felipe C., Wuttke S., Fidalgo-Marijuan A., Larrea E.S., Lezama L., Zheng F., Reguera J., Lanceros-Méndez S., Arriortua M.I., Copello G., de Luis R.F. ChemSusChem, 14, 14, 2892, 2901, (2021) |
Ferromagnetic supramolecular metal-organic frameworks for active capture and magnetic sensing of emerging drug pollutantsPérez-Aguirre R., Artetxe B., Beobide G., Castillo O., de Pedro I., Luque A., Pérez-Yáñez S., Wuttke S. Cell Reports Physical Science, 2, 5, 100421, (2021) |
From Molecules to Frameworks to Superframework CrystalsJi Z., Freund R., Diercks C.S., Hirschle P., Yaghi O.M., Wuttke S. Advanced Materials, 33, 42, 2103808, (2021) |
Identification of the Physicochemical Factors Involved in the Dye Separation via Methionine-Functionalized Mesoporous CarbonsGoscianska J., Galarda A., Ejsmont A., Wuttke S. Advanced Sustainable Systems, 5, 6, 2100013, (2021) |
Linker Exchange via Migration along the Backbone in Metal-Organic FrameworksAl Danaf N., Schrimpf W., Hirschle P., Lamb D.C., Ji Z., Wuttke S. Journal of the American Chemical Society, 143, 28, 10541, 10546, (2021) |
Modular Assembly of Red Blood Cell Superstructures from Metal–Organic Framework Nanoparticle-Based Building BlocksGuo J., Yu Y., Zhu W., Serda R.E., Franco S., Wang L., Lei Q., Agola J.O., Noureddine A., Ploetz E., Wuttke S., Brinker C.J. Advanced Functional Materials, 31, 10, 2005935, (2021) |
MRI-Active Metal-Organic Frameworks: Concepts for the Translation from Lab to ClinicPeller M., Lanza A., Wuttke S. Advanced Therapeutics, 4, 9, 2100067, (2021) |
Overcoming the paracetamol dose challenge with wrinkled mesoporous carbon spheresGoscianska J., Olejnik A., Ejsmont A., Galarda A., Wuttke S. Journal of Colloid and Interface Science, 586, 673, 682, (2021) |
Printed Capacitive Sensors Based on Ionic Liquid/Metal-Organic Framework Composites for Volatile Organic Compounds DetectionFernandez E., G. Saiz P., Peřinka N., Wuttke S., Fernández de Luis R. Advanced Functional Materials, 31, 25, 2010703, (2021) |
The Current Status of MOF and COF ApplicationsFreund R., Zaremba O., Arnauts G., Ameloot R., Skorupskii G., Dincă M., Bavykina A., Gascon J., Ejsmont A., Goscianska J., Kalmutzki M., Lächelt U., Ploetz E., Diercks C.S., Wuttke S. Angewandte Chemie - International Edition, 60, 45, 23975, 24001, (2021) |
Beyond Frameworks: Structuring Reticular Materials across Nano-, Meso-, and Bulk RegimesHaase F., Hirschle P., Freund R., Furukawa S., Ji Z., Wuttke S. Angewandte Chemie - International Edition, 59, 50, 22350, 22370, (2020) |
Circumventing Wear and Tear of Adaptive Porous MaterialsCanossa S., Ji Z., Wuttke S. Advanced Functional Materials, 30, 41, 1908547, (2020) |
Controlling the morphology of metal-organic frameworks and porous carbon materials: Metal oxides as primary architecture-directing agentsHwang J., Ejsmont A., Freund R., Goscianska J., Schmidt B.V.K.J., Wuttke S. Chemical Society Reviews, 49, 11, 3348, 3422, (2020) |
Digital Reticular ChemistryLyu H., Ji Z., Wuttke S., Yaghi O.M. Chem, 6, 9, 2219, 2241, (2020) |
Functionalization Chemistry of Porous MaterialsCanossa S., Wuttke S. Advanced Functional Materials, 30, 41, 2003875, (2020) |
Metal-Organic Framework Based PVDF Separators for High Rate Cycling Lithium-Ion BatteriesValverde A., Gonçalves R., Silva M.M., Wuttke S., Fidalgo-Marijuan A., Costa C.M., Vilas-Vilela J.L., Laza J.M., Arriortua M.I., Lanceros-Méndez S., Fernández De Luis R. ACS Applied Energy Materials, 3, 12, 11907, 11919, (2020) |
Metal–Organic Framework Nanoparticles Induce Pyroptosis in Cells Controlled by the Extracellular pHPloetz E., Zimpel A., Cauda V., Bauer D., Lamb D.C., Haisch C., Zahler S., Vollmar A.M., Wuttke S., Engelke H. Advanced Materials, 32, 19, 1907267, (2020) |
Pore Chemistry of Metal–Organic FrameworksJi Z., Wang H., Canossa S., Wuttke S., Yaghi O.M. Advanced Functional Materials, 30, 41, 2000238, (2020) |
Sol–Gel-Based Advanced Porous Silica Materials for Biomedical ApplicationsLei Q., Guo J., Noureddine A., Wang A., Wuttke S., Brinker C.J., Zhu W. Advanced Functional Materials, 30, 41, 1909539, (2020) |
Standard Practices of Reticular ChemistryGropp C., Canossa S., Wuttke S., Gándara F., Li Q., Gagliardi L., Yaghi O.M. ACS Central Science, 6, 8, 1255, 1273, (2020) |
The Chemistry of Reticular Framework Nanoparticles: MOF, ZIF, and COF MaterialsPloetz E., Engelke H., Lächelt U., Wuttke S. Advanced Functional Materials, 30, 41, 1909062, (2020) |
Tuning the Morphological Appearance of Iron(III) Fumarate: Impact on Material Characteristics and BiocompatibilityHirschle P., Hirschle C., Böll K., Döblinger M., Höhn M., Tuffnell J.M., Ashling C.W., Keen D.A., Bennett T.D., Rädler J.O., Wagner E., Peller M., Lächelt U., Wuttke S. Chemistry of Materials, 32, 6, 2253, 2263, (2020) |
Core-Shell Functionalized Zirconium-Pemetrexed Coordination Nanoparticles as Carriers with a High Drug ContentSteinborn B., Hirschle P., Höhn M., Bauer T., Barz M., Wuttke S., Wagner E., Lächelt U. Advanced Therapeutics, 2, 11, 1900120, (2019) |
Nanoparticle Characterization: What to Measure?Modena M.M., Rühle B., Burg T.P., Wuttke S. Advanced Materials, 31, 32, 1901556, (2019) |
Negative electrode materials for high-energy density Li- and Na-ion batteriesPalomares V., Nieto N., Rojo T. Current Opinion in Electrochemistry, 31, 100840, (2022) |
On the Road to Sustainable Energy Storage Technologies: Synthesis of Anodes for Na-Ion Batteries from BiowasteNieto N., Noya O., Iturrondobeitia A., Sanchez-Fontecoba P., Pérez-López U., Palomares V., Lopez-Urionabarrenechea A., Rojo T. Batteries, 8, 4, 28, (2022) |
Magnetic, magnetoelastic and corrosion resistant properties of (Fe-Ni)-based metallic glasses for structural health monitoring applicationsSagasti A., Palomares V., Porro J.M., Orúe I., Sánchez-Ilárduya M.B., Lopes A.C., Gutiérrez J. Materials, 13, 1, 57, (2020) |
Corrosion resistant metallic glasses for biosensing applicationsSagasti A., Lopes A.C., Lasheras A., Palomares V., Carrizo J., Gutierrez J., Barandiaran J.M. AIP Advances, 8, 4, 047702, (2018) |
Investigating low-valent compositions in the Na3V2O2: X(PO4)2F3-2 x family: Structural transitions and their consequencesPalomares V., Blas M., Setien S., Lezama L., Pramudita J.C., Quadir Z., Sharma N. Dalton Transactions, 47, 8, 2610, 2618, (2018) |
Waste Biomass as in Situ Carbon Source for Sodium Vanadium Fluorophosphate/C Cathodes for Na-Ion BatteriesPalomares V., Blas M., Serras P., Iturrondobeitia A., Peña A., Lopez-Urionabarrenechea A., Lezama L., Rojo T. ACS Sustainable Chemistry and Engineering, 6, 12, 16386, 16398, (2018) |
Structural evolution of mixed valent (V3+/V4+) and V4+ sodium vanadium fluorophosphates as cathodes in sodium-ion batteries: Comparisons, overcharging and mid-term cyclingPalomares V., Serras P., Brand H.E.A., Rojo T., Sharma N. Journal of Materials Chemistry A, 3, 45, 23017, 23027, (2015) |
Sodium distribution and reaction mechanisms of a Na3V 2O2(PO4)2F electrode during use in a sodium-ion batterySharma N., Serras P., Palomares V., Brand H.E.A., Alonso J., Kubiak P., Luisa Fdez-Gubieda M., Rojo T. Chemistry of Materials, 26, 11, 3391, 3402, (2014) |
Electrochemical Na extraction/insertion of Na3V 2O2x(PO4)2F3-2 xSerras P., Palomares V., Alonso J., Sharma N., López Del Amo J.M., Kubiak P., Fdez-Gubieda M.L., Rojo T. Chemistry of Materials, 25, 24, 4917, 4925, (2013) |
Structure-property control of polycrystalline Ni-Mn-Ga by moderate Co-dopingNamvari M., Chernenko V., Saren A., Porro J.M., Ullakko K. Journal of Alloys and Compounds, 944, 169184, (2023) |
Cd-doping effects in Ni-Mn-Sn: Experiment and ab-initio studyGhazinezhad Z., Kameli P., Ghotbi Varzaneh A., Sarsari I.A., Norouzi-Inallu M., Amiri T., Salazar D., Rodríguez-Crespo B., Vashaee D., Etsell T.H., Chernenko V. Journal of Physics D: Applied Physics, 55, 25, 255001, (2022) |
Development and magnetocaloric properties of Ni(Co)-Mn-Sn printing inkRodríguez-Crespo B., Salazar D., Lanceros-Méndez S., Chernenko V. Journal of Alloys and Compounds, 917, 165521, (2022) |
In a search for effective giant magnetoelectric coupling: Magnetically induced elastic resonance in Ni-Mn-Ga/P(VDF-TrFE) compositesMartins P., Lima A.C., L'vov V.A., Pereira N., Sratong-on P., Hosoda H., Chernenko V., Lanceros-Mendez S. Applied Materials Today, 29, 101682, (2022) |
Influence of W doping on the structure, magnetism and exchange bias in Ni47Mn40Sn13 - XWxHeusler alloysNorouzi-Inallu M., Kameli P., Ghotbi Varzaneh A., Abdolhosseini Sarsari I., Abbasi Eskandari M., Orue I., Rodríguez-Crespo B., Chernenko V. Journal of Physics Condensed Matter, 34, 22, 225803, (2022) |
Tuning magnetic and table-like magnetocaloric effect of La0.6−xErxSr0.4MnO3(x = 0.0125, 0.05, 0.1) manganitesRaoufi T., Varzaneh A.G., Ehsani M.H., Liu E., Chernenko V. Materials Research Bulletin, 156, 111997, (2022) |
Elaboration of magnetostrain-active NiMnGa particles/polymer layered compositesHosoda H., Lazarczyk J., Sratong-on P., Tahara M., Chernenko V. Materials Letters, 289, 129427, (2021) |
Magnetostrictive Ni-Mn-Based Heusler AlloysChernenko V. Encyclopedia of Smart Materials, 160, 176, (2021) |
Mastering a 1.2 K hysteresis for martensitic para-ferromagnetic partial transformation in Ni-Mn(Cu)-Ga magnetocaloric material via binder jet 3D printingStevens E., Kimes K., Salazar D., Mostafaei A., Rodriguez R., Acierno A., Lázpita P., Chernenko V., Chmielus M. Additive Manufacturing, 37, 101560, (2021) |
Neutron scattering as a powerful tool to investigate magnetic shape memory alloys: A reviewRío‐lópez N.A., Lázpita P., Salazar D., Petrenko V.I., Plazaola F., Chernenko V., Porro J.M. Metals, 11, 5, 829, (2021) |
Spontaneous zero-field cooling exchange bias in ni–co–mn– sn metamagnetic heusler sputtered filmAlexandrakis V., Rodríguez-Aseguinolaza I., Anastasakos-Paraskevopoulos D., Barandiarán J.M., Chernenko V., Porro J.M. Nanomaterials, 11, 9, 2188, (2021) |
Suppression of martensitic transformation in Ni-Mn-In metamagnetic shape memory alloy under very strong magnetic fieldLázpita P., Pérez-Checa A., Barandiarán J.M., Ammerlaan A., Zeitler U., Chernenko V. Journal of Alloys and Compounds, 874, 159814, (2021) |
Temperature dependent stress–strain behavior and martensite stabilization in magnetic shape memory ni51.1 fe16.4 ga26.3 co6.2 single crystalLázpita P., Villa E., Villa F., Chernenko V. Metals, 11, 6, 920, (2021) |
Thickness dependences of structural and magnetic properties of Ni(Co)MnSn/MgO(001) thin filmsGolub V., Aseguinolaza I.R., Salyuk O., Popadiuk D., Sharay I., Fernández R., Alexandrakis V., Bunyaev S.A., Kakazei G.N., Barandiarán J.M., Chernenko V.A. Journal of Alloys and Compounds, 862, 158474, (2021) |
Anomalous Hall effect in Ni47.3Mn30.6Ga22.1/Mg O(001) thin filmsBlinov M.I., Chernenko V., Prudnikov V.N., Aseguinolaza I.R., Barandiaran J.M., Lahderanta E., Granovsky A.B. Physical Review B, 102, 6, 064413, (2020) |
Combinatorial synthesis of Ni–Mn–Ga-(Fe,Co,Cu) high temperature ferromagnetic shape memory alloys thin filmsAlexandrakis V., Barandiaran J.M., Pérez-Checa A., Lázpita P., Decker P., Salomon S., Feuchtwanger J., Ludwig A., Chernenko V. Scripta Materialia, 178, 104, 107, (2020) |
Combined effect of magnetic field and hydrostatic pressure on the phase transitions exhibited by Ni-Mn-In metamagnetic shape memory alloyLázpita P., L'vov V.A., Fernández J.R., Barandiarán J.M., Chernenko V.A. Acta Materialia, 193, 1, 9, (2020) |
Effect of Aging on the Structure and Transformation Behavior of Cu–12Al–3.5Ni–0.7Ti–0.05RE High Temperature Shape Memory AlloyDalvand P., Raygan S., López G.A., Meléndez M.B., Chernenko V.A. Metals and Materials International, 26, 9, 1354, 1365, (2020) |
Lightweight, multifunctional materials based on magnetic shape memory alloysSalazar-Jaramillo D., Barandiaran J.M., Kohl M., Cong D., Hosoda H., Llamazares J.L.S., Chernenko V.A. Advanced Lightweight Multifunctional Materials, 187, 237, (2020) |
Magnetism of nanotwinned martensite in magnetic shape memory alloysGolub V., L'vov V.A., Salyuk O., Barandiaran J.M., Chernenko V.A. Journal of Physics Condensed Matter, 32, 31, 313001, (2020) |
Martensitic transformation and structural states in Ni44.0Mn43.5Sn12.5-xAlx (x = 1, 2, 3 at.%) magnetic shape memory alloys prepared by vacuum hot pressingVilla E., Maziarz W., Wójcik A., Nespoli A., Lázpita P., Hosoda H., Chernenko V. Journal of Alloys and Compounds, 847, 156315, (2020) |
Role of Fe addition in Ni–Mn–Ga–Co–Cu–Fe ferromagnetic shape memory alloys for high-temperature magnetic actuationPérez-Checa A., Porro J.M., Feuchtwanger J., Lázpita P., Hansen T.C., Mondelli C., Sozinov A., Barandiarán J.M., Ullakko K., Chernenko V. Acta Materialia, 196, 549, 555, (2020) |
The Effect of Particle Shape on Magnetic Field-Induced Rubber-Like Behavior of Ni-Mn-Ga/Silicone CompositesSratong-On P., Chernenko V.A., Hosoda H. IOP Conference Series: Materials Science and Engineering, 886, 1, 012055, (2020) |
Effect of adding Ti and rare earth elements on properties of Cu-14Al-4Ni shape memory alloyDalvand P., Raygan S., López G.A., Chernenko V.A. Materials Research Express, 6, 11, 116512, (2019) |
Fundamentals of magnetocaloric effect in magnetic shape memory alloysChernenko V.A., L'vov V.A., Cesari E., Barandiaran J.M. Handbook of Magnetic Materials, 28, 1, 45, (2019) |
Influence of internal stress on magnetostrain effect in Ni–Mn–Ga/polymer compositeSratong-on P., Chernenko V., Hosoda H. Results in Materials, 2, 100037, (2019) |
Magnetic field-induced rubber-like behavior in Ni-Mn-Ga particles/polymer compositeSratong-on P., Chernenko V.A., Feuchtwanger J., Hosoda H. Scientific Reports, 9, 1, 3443, (2019) |
Magnetocaloric effect in W-doped Ni-Mn-Sn alloy probed by direct and indirect measurementsInallu M.N., Kameli P., Varzaneh A.G., Sarsari I.A., Salazar D., Orue I., Chernenko V.A. Journal of Physics D: Applied Physics, 52, 23, 235001, (2019) |
Properties of rare earth added Cu–12wt%Al–3wt%Ni–0.6wt%Ti high temperature shape memory alloyDalvand P., Raygan S., López G.A., Meléndez M.B., Chernenko V.A. Materials Science and Engineering A, 754, 370, 381, (2019) |
Study of the critical parameters for magnetic field-induced strain in high temperature Ni-Mn-Ga-Co-Cu-Fe single crystalsPérez-Checa A., Musiienko D., Saren A., Soroka A., Feuchtwanger J., Sozinov A., Barandiaran J.M., Ullakko K., Chernenko V.A. Scripta Materialia, 158, 16, 19, (2019) |
Effect of Fe doping and magnetic field on martensitic transformation of Mn-Ni(Fe)-Sn metamagnetic shape memory alloysLázpita P., Sasmaz M., Barandiarán J.M., Chernenko V.A. Acta Materialia, 155, 95, 103, (2018) |
Magnetocaloric Effect in Specially Designed MaterialsSalazar-Jaramillo D., Álvarez-Alonso P., Lázpita P., Sánchez Llamazares J.L., Gorría P., Blanco J.A., Chernenko V.A. Magnetic Nanostructured Materials: From Lab to Fab, 199, 244, (2018) |
Magnetovolume coupling in transformation behaviour of Mn-Ni-Sn metamagnetic shape memory alloysL'Vov V.A., Lazpita P., Barandiaran J.M., Chernenko V.A. Journal of Physics D: Applied Physics, 51, 35, 355001, (2018) |
Martensitic transformation hysteresis in Ni(Co)-Mn-Sn/MgO metamagnetic shape memory thin filmsAlexandrakis V., Aseguinolaza I.R., Decker P., Salomon S., Barandiarán J.M., Ludwig A., Chernenko V.A. Scripta Materialia, 156, 101, 104, (2018) |
Negative Magnetoresistance in Nanotwinned NiMnGa Epitaxial FilmsGolub V.O., Chernenko V.A., Apolinario A., Aseguinolaza I.R., Araujo J.P., Salyuk O., Barandiaran J.M., Kakazei G.N. Scientific Reports, 8, 1, 15730, (2018) |
Ni-Mn-Ga high temperature shape memory alloys: Function stability in β and β + γ regionsPérez-Checa A., Feuchtwanger J., Barandiaran J.M., Chernenko V.A. Journal of Alloys and Compounds, 741, 148, 154, (2018) |
Ni-Mn-Ga-(Co, Fe, Cu) high temperature ferromagnetic shape memory alloys: Effect of Mn and Ga replacement by CuPérez-Checa A., Feuchtwanger J., Barandiaran J.M., Sozinov A., Ullakko K., Chernenko V.A. Scripta Materialia, 154, 131, 133, (2018) |
Probing Structural and Magnetic Instabilities and Hysteresis in Heuslers by Density Functional Theory CalculationsEntel P., Gruner M.E., Fähler S., Acet M., Çahır A., Arróyave R., Sahoo S., Duong T.C., Talapatra A., Sandratskii L., Mankowsky S., Gottschall T., Gutfleisch O., Lázpita P., Chernenko V.A., Barandiaran J.M., Sokolovskiy V.V., Buchelnikov V.D. Physica Status Solidi (B) Basic Research, 255, 2, 1700296, (2018) |
Antiferromagnetic coupling between martensitic twin variants observed by magnetic resonance in Ni-Mn-Sn-Co filmsGolub V.O., Lvov V.A., Aseguinolaza I., Salyuk O., Popadiuk D., Kharlan Y., Kakazei G.N., Araujo J.P., Barandiaran J.M., Chernenko V.A. Physical Review B, 95, 2, 024422, (2017) |
High temperature Ni45Co5Mn25 − xFexGa20Cu5 ferromagnetic shape memory alloysPérez-Checa A., Feuchtwanger J., Musiienko D., Sozinov A., Barandiaran J.M., Ullakko K., Chernenko V.A. Scripta Materialia, 134, 119, 122, (2017) |
Magnetic and nonmagnetic contributions to the heat capacity of metamagnetic shape memory alloyKosogor A., Barandiaran J.M., L'vov V.A., Fernandez J.R., Chernenko V.A. Journal of Applied Physics, 121, 18, 183901, (2017) |
Polarized Neutron Study of Ni-Mn-Ga Alloys: Site-Specific Spin Density Affected by Martensitic TransformationLázpita P., Barandiarán J.M., Gutiérrez J., Mondelli C., Sozinov A., Chernenko V.A. Physical Review Letters, 119, 15, 155701, (2017) |
Adiabatic magnetocaloric effect in Ni50Mn35In15 ribbonsÁlvarez-Alonso P., Aguilar-Ortiz C.O., Camarillo J.P., Salazar D., Flores-Zúñiga H., Chernenko V.A. Applied Physics Letters, 109, 21, 212402, (2016) |
Integrated SMA-based NEMS actuator for optical switchingLambrecht F., Aseguinolaza I., Chernenko V., Kohl M. Proceedings of the IEEE International Conference on Micro Electro Mechanical Systems (MEMS), 2016-February, 7421562, 79, 82, (2016) |
Large tensile superelasticity from intermartensitic transformations in Ni49Mn28Ga23 single crystalChernenko V.A., Villa E., Salazar D., Barandiaran J.M. Applied Physics Letters, 108, 7, 071903, (2016) |
Magnetic and conventional shape memory behavior of Mn-Ni-Sn and Mn-Ni-Sn(Fe) alloysTurabi A.S., Lázpita P., Sasmaz M., Karaca H.E., Chernenko V.A. Journal of Physics D: Applied Physics, 49, 20, 205002, (2016) |
Martensitic transformation and magnetic field induced effects in Ni42Co8Mn39Sn11 metamagnetic shape memory alloyLázpita P., Sasmaz M., Cesari E., Barandiarán J.M., Gutiérrez J., Chernenko V.A. Acta Materialia, 109, 170, 176, (2016) |
Martensitic transformation of NiMnGa shape memory alloys thin films studied by flash DSCBarandiaran J.M., Aseguinolaza I.R., Mota-Cobián A., Chernenko V.A. Fast Scanning Calorimetry, 775, 785, (2016) |
Self-patterning of epitaxial Ni-Mn-Ga/MgO(001) thin filmsAseguinolaza I.R., Golub V., Salyuk O.Y., Muntifering B., Knowlton W.B., Müllner P., Barandiarán J.M., Chernenko V.A. Acta Materialia, 111, 194, 201, (2016) |
Magnetic analysis of martensitic and austenitic phases in metamagnetic NiMn(In, Sn) alloysLázpita P., Escolar J., Chernenko V.A., Barandiarán J.M. Journal of Alloys and Compounds, 644, 883, 887, (2015) |
Magnetic Properties of Heusler-Type NiMnGa Glass-Coated MicrowiresZhukova V., Chernenko V., Ipatov M., Zhukov A. IEEE Transactions on Magnetics, 51, 11, 7112518, (2015) |
Simple set-up for adiabatic measurements of magnetocaloric effectÁlvarez-Alonso P., López-García J., Daniel-Perez G., Salazar D., Lázpita P., Camarillo J.P., Flores-Zuñiga H., Rios-Jara D., Sánchez-Llamazares J.L., Chernenko V.A. Key Engineering Materials, 644, 215, 218, (2015) |
Spectroscopic evidence of band Jahn-Teller distortion upon martensitic phase transition in Heusler-type Ni-Fe(Co)-Ga ferromagnetic shape-memory alloy filmsSumida K., Shirai K., Zhu S., Taniguchi M., Ye M., Ueda S., Takeda Y., Saitoh Y., Aseguinolaza I.R., Barandiarán J.M., Chernenko V.A., Kimura A. Physical Review B - Condensed Matter and Materials Physics, 91, 13, 134417, (2015) |
An in solution adsorption characterization technique based on the response to an external magnetic field of porous paramagnetic materials: application on supramolecular metal-adenine frameworks containing heterometallic heptameric clustersPascual-Colino J., Pérez-Aguirre R., Beobide G., Castillo O., de Pedro I., Luque A., Mena-Gutiérrez S., Pérez-Yáñez S. Inorganic Chemistry Frontiers (In Press) |
Magnetic sustentation as an adsorption characterization technique for paramagnetic metal-organic frameworksBarroso N., Andreo J., Beobide G., Castillo O., Luque A., Pérez-Yáñez S., Wuttke S. Communications Chemistry, 6, 1, 4, (2023) |
Copper(II) invigorated EHU-30 for continuous electroreduction of CO2 into value-added chemicalsLandaluce N., Perfecto-Irigaray M., Albo J., Beobide G., Castillo O., Irabien A., Luque A., Méndez A.S.J., Platero-Prats A.E., Pérez-Yáñez S. Scientific Reports, 12, 1, 8505, (2022) |
Innovative Microstructural Transformation upon CO2 Supercritical Conditions on Metal-Nucleobase Aerogel and Its Use as Effective Filler for HPLC Biomolecules SeparationMaldonado N., Beobide G., Reyes E., Martínez J.I., Gómez-García C.J., Castillo O., Amo-Ochoa P. Nanomaterials, 12, 4, 675, (2022) |
Low temperature curable titanium-based sols for visible light photocatalytic coatings for glass and polymeric substratesAngulo-Ibáñez A., Luengo N., Aranzabe E., Beobide G., Castillo O., Goitandia A.M., Pérez-Yáñez S., Perfecto-Irigaray M., Villamayor A. New Journal of Chemistry, 46, 33, 16192, 16202, (2022) |
Merging the chemistry of metal-organic and polyoxometalate clusters to form enhanced photocatalytic materialsNapal J., Artetxe B., Beobide G., Castillo O., Luque A., Pascual-Colino J., Pérez-Yáñez S., Perfecto-Irigaray M. Inorganic Chemistry Frontiers, 9, 5, 935, 940, (2022) |
Metal-organic aerogels based on titanium(IV) for visible-light conducted CO2 photoreduction to alcoholsAngulo-Ibáñez A., Perfecto-Irigaray M., Merino-Garcia I., Luengo N., Goitandia A.M., Albo J., Aranzabe E., Beobide G., Castillo O., Pérez-Yáñez S. Materials Today Energy, 30, 101178, (2022) |
The Chemistry of Zirconium/Carboxylate Clustering Process: Acidic Conditions to Promote Carboxylate-Unsaturated Octahedral Hexamers and Pentanuclear SpeciesPascual-Colino J., Artetxe B., Beobide G., Castillo O., Fidalgo-Mayo M.L., Isla-López A., Luque A., Mena-Gutiérrez S., Pérez-Yáñez S. Inorganic Chemistry, 61, 12, 4842, 4851, (2022) |
Ferromagnetic supramolecular metal-organic frameworks for active capture and magnetic sensing of emerging drug pollutantsPérez-Aguirre R., Artetxe B., Beobide G., Castillo O., de Pedro I., Luque A., Pérez-Yáñez S., Wuttke S. Cell Reports Physical Science, 2, 5, 100421, (2021) |
Metastable Zr/Hf-MOFs: The hexagonal family of EHU-30 and their water-sorption induced structural transformationPerfecto-Irigaray M., Beobide G., Calero S., Castillo O., Da Silva I., Gutierrez Sevillano J.J., Luque A., Pérez-Yáñez S., Velasco L.F. Inorganic Chemistry Frontiers, 8, 22, 4767, 4779, (2021) |
Single-Crystal-to-Single-Crystal Cluster Transformation in a Microporous Molybdoarsenate(V)-Metalorganic FrameworkDissem N., Artetxe B., San Felices L., Beobide G., Castillo O., Ruiz-Bilbao E., Lezama L., Vivanco M.D., Haddad A., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 60, 19, 14913, 14923, (2021) |
Single-ion magnet and photoluminescence properties of lanthanide(Iii) coordination polymers based on pyrimidine-4,6-dicarboxylatePajuelo-Corral O., García J.A., Castillo O., Luque A., Rodríguez-Diéguez A., Cepeda J. Magnetochemistry, 7, 1, 8, 1, 20, (2021) |
Slot-die process of a sol–gel photocatalytic porous coating for large-area fabrication of functional architectural glassAngulo-Ibáñez A., Aranzabe E., Beobide G., Castillo O., Goitandia A.M., Pérez-Yáñez S., Villamayor A. Catalysts, 11, 6, 711, (2021) |
Thermally-Triggered Crystal Dynamics and Permanent Porosity in the First Heptatungstate-Metalorganic Three-Dimensional Hybrid FrameworkMartín-Caballero J., Artetxe B., Reinoso S., San Felices L., Castillo O., Beobide G., Vilas J.L., Gutiérrez-Zorrilla J.M. Chemistry - A European Journal, 23, 59, 14962, 14974, (2017) |
An in solution adsorption characterization technique based on the response to an external magnetic field of porous paramagnetic materials: application on supramolecular metal-adenine frameworks containing heterometallic heptameric clustersPascual-Colino J., Pérez-Aguirre R., Beobide G., Castillo O., de Pedro I., Luque A., Mena-Gutiérrez S., Pérez-Yáñez S. Inorganic Chemistry Frontiers (In Press) |
Magnetic sustentation as an adsorption characterization technique for paramagnetic metal-organic frameworksBarroso N., Andreo J., Beobide G., Castillo O., Luque A., Pérez-Yáñez S., Wuttke S. Communications Chemistry, 6, 1, 4, (2023) |
A metal-organic framework based on Co(II) and 3-aminoisonicotinate showing specific and reversible colourimetric response to solvent exchange with variable magnet behaviourPajuelo-Corral O., Pérez-Yáñez S., Vitorica-Yrezabal I.J., Beobide G., Zabala-Lekuona A., Rodríguez-Diéguez A., Seco J.M., Cepeda J. Materials Today Chemistry, 24, 100794, (2022) |
Copper(II) invigorated EHU-30 for continuous electroreduction of CO2 into value-added chemicalsLandaluce N., Perfecto-Irigaray M., Albo J., Beobide G., Castillo O., Irabien A., Luque A., Méndez A.S.J., Platero-Prats A.E., Pérez-Yáñez S. Scientific Reports, 12, 1, 8505, (2022) |
Low temperature curable titanium-based sols for visible light photocatalytic coatings for glass and polymeric substratesAngulo-Ibáñez A., Luengo N., Aranzabe E., Beobide G., Castillo O., Goitandia A.M., Pérez-Yáñez S., Perfecto-Irigaray M., Villamayor A. New Journal of Chemistry, 46, 33, 16192, 16202, (2022) |
Merging the chemistry of metal-organic and polyoxometalate clusters to form enhanced photocatalytic materialsNapal J., Artetxe B., Beobide G., Castillo O., Luque A., Pascual-Colino J., Pérez-Yáñez S., Perfecto-Irigaray M. Inorganic Chemistry Frontiers, 9, 5, 935, 940, (2022) |
Metal-organic aerogels based on titanium(IV) for visible-light conducted CO2 photoreduction to alcoholsAngulo-Ibáñez A., Perfecto-Irigaray M., Merino-Garcia I., Luengo N., Goitandia A.M., Albo J., Aranzabe E., Beobide G., Castillo O., Pérez-Yáñez S. Materials Today Energy, 30, 101178, (2022) |
Polymeric Nanocomposite Membranes for Water Remediation: From Classic Approaches to 3D PrintingRubio L.R., Teijido R., Veloso-Fernández A., Pérez-Yáñez S., Vilas-Vilela J.L. Engineering Materials, 191, 243, (2022) |
The Chemistry of Zirconium/Carboxylate Clustering Process: Acidic Conditions to Promote Carboxylate-Unsaturated Octahedral Hexamers and Pentanuclear SpeciesPascual-Colino J., Artetxe B., Beobide G., Castillo O., Fidalgo-Mayo M.L., Isla-López A., Luque A., Mena-Gutiérrez S., Pérez-Yáñez S. Inorganic Chemistry, 61, 12, 4842, 4851, (2022) |
Ferromagnetic supramolecular metal-organic frameworks for active capture and magnetic sensing of emerging drug pollutantsPérez-Aguirre R., Artetxe B., Beobide G., Castillo O., de Pedro I., Luque A., Pérez-Yáñez S., Wuttke S. Cell Reports Physical Science, 2, 5, 100421, (2021) |
Metastable Zr/Hf-MOFs: The hexagonal family of EHU-30 and their water-sorption induced structural transformationPerfecto-Irigaray M., Beobide G., Calero S., Castillo O., Da Silva I., Gutierrez Sevillano J.J., Luque A., Pérez-Yáñez S., Velasco L.F. Inorganic Chemistry Frontiers, 8, 22, 4767, 4779, (2021) |
Slot-die process of a sol–gel photocatalytic porous coating for large-area fabrication of functional architectural glassAngulo-Ibáñez A., Aranzabe E., Beobide G., Castillo O., Goitandia A.M., Pérez-Yáñez S., Villamayor A. Catalysts, 11, 6, 711, (2021) |
Towards correlating dimensionality and topology in luminescent MOFs based on terephthalato and bispyridyl-like ligandsCepeda J., Pérez-Yáñez S., García J.Á., Rojas S., Rodríguez-Diéguez A. Dalton Transactions, 50, 26, 9269, 9282, (2021) |
An in solution adsorption characterization technique based on the response to an external magnetic field of porous paramagnetic materials: application on supramolecular metal-adenine frameworks containing heterometallic heptameric clustersPascual-Colino J., Pérez-Aguirre R., Beobide G., Castillo O., de Pedro I., Luque A., Mena-Gutiérrez S., Pérez-Yáñez S. Inorganic Chemistry Frontiers (In Press) |
Magnetic sustentation as an adsorption characterization technique for paramagnetic metal-organic frameworksBarroso N., Andreo J., Beobide G., Castillo O., Luque A., Pérez-Yáñez S., Wuttke S. Communications Chemistry, 6, 1, 4, (2023) |
A metal-organic framework based on Co(II) and 3-aminoisonicotinate showing specific and reversible colourimetric response to solvent exchange with variable magnet behaviourPajuelo-Corral O., Pérez-Yáñez S., Vitorica-Yrezabal I.J., Beobide G., Zabala-Lekuona A., Rodríguez-Diéguez A., Seco J.M., Cepeda J. Materials Today Chemistry, 24, 100794, (2022) |
Copper(II) invigorated EHU-30 for continuous electroreduction of CO2 into value-added chemicalsLandaluce N., Perfecto-Irigaray M., Albo J., Beobide G., Castillo O., Irabien A., Luque A., Méndez A.S.J., Platero-Prats A.E., Pérez-Yáñez S. Scientific Reports, 12, 1, 8505, (2022) |
Innovative Microstructural Transformation upon CO2 Supercritical Conditions on Metal-Nucleobase Aerogel and Its Use as Effective Filler for HPLC Biomolecules SeparationMaldonado N., Beobide G., Reyes E., Martínez J.I., Gómez-García C.J., Castillo O., Amo-Ochoa P. Nanomaterials, 12, 4, 675, (2022) |
Low temperature curable titanium-based sols for visible light photocatalytic coatings for glass and polymeric substratesAngulo-Ibáñez A., Luengo N., Aranzabe E., Beobide G., Castillo O., Goitandia A.M., Pérez-Yáñez S., Perfecto-Irigaray M., Villamayor A. New Journal of Chemistry, 46, 33, 16192, 16202, (2022) |
Merging the chemistry of metal-organic and polyoxometalate clusters to form enhanced photocatalytic materialsNapal J., Artetxe B., Beobide G., Castillo O., Luque A., Pascual-Colino J., Pérez-Yáñez S., Perfecto-Irigaray M. Inorganic Chemistry Frontiers, 9, 5, 935, 940, (2022) |
Metal-organic aerogels based on titanium(IV) for visible-light conducted CO2 photoreduction to alcoholsAngulo-Ibáñez A., Perfecto-Irigaray M., Merino-Garcia I., Luengo N., Goitandia A.M., Albo J., Aranzabe E., Beobide G., Castillo O., Pérez-Yáñez S. Materials Today Energy, 30, 101178, (2022) |
Multifunctional Lanthanide-Based Metal-Organic Frameworks Derived from 3-Amino-4-hydroxybenzoate: Single-Molecule Magnet Behavior, Luminescent Properties for Thermometry, and CO2Adsorptive CapacityEchenique-Errandonea E., Mendes R.F., Figueira F., Choquesillo-Lazarte D., Beobide G., Cepeda J., Ananias D., Rodríguez-Diéguez A., Almeida Paz F.A., Seco J.M. Inorganic Chemistry, 61, 33, 12977, 12990, (2022) |
The Chemistry of Zirconium/Carboxylate Clustering Process: Acidic Conditions to Promote Carboxylate-Unsaturated Octahedral Hexamers and Pentanuclear SpeciesPascual-Colino J., Artetxe B., Beobide G., Castillo O., Fidalgo-Mayo M.L., Isla-López A., Luque A., Mena-Gutiérrez S., Pérez-Yáñez S. Inorganic Chemistry, 61, 12, 4842, 4851, (2022) |
Ferromagnetic supramolecular metal-organic frameworks for active capture and magnetic sensing of emerging drug pollutantsPérez-Aguirre R., Artetxe B., Beobide G., Castillo O., de Pedro I., Luque A., Pérez-Yáñez S., Wuttke S. Cell Reports Physical Science, 2, 5, 100421, (2021) |
Metastable Zr/Hf-MOFs: The hexagonal family of EHU-30 and their water-sorption induced structural transformationPerfecto-Irigaray M., Beobide G., Calero S., Castillo O., Da Silva I., Gutierrez Sevillano J.J., Luque A., Pérez-Yáñez S., Velasco L.F. Inorganic Chemistry Frontiers, 8, 22, 4767, 4779, (2021) |
Single-Crystal-to-Single-Crystal Cluster Transformation in a Microporous Molybdoarsenate(V)-Metalorganic FrameworkDissem N., Artetxe B., San Felices L., Beobide G., Castillo O., Ruiz-Bilbao E., Lezama L., Vivanco M.D., Haddad A., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 60, 19, 14913, 14923, (2021) |
Slot-die process of a sol–gel photocatalytic porous coating for large-area fabrication of functional architectural glassAngulo-Ibáñez A., Aranzabe E., Beobide G., Castillo O., Goitandia A.M., Pérez-Yáñez S., Villamayor A. Catalysts, 11, 6, 711, (2021) |
Thermally-Triggered Crystal Dynamics and Permanent Porosity in the First Heptatungstate-Metalorganic Three-Dimensional Hybrid FrameworkMartín-Caballero J., Artetxe B., Reinoso S., San Felices L., Castillo O., Beobide G., Vilas J.L., Gutiérrez-Zorrilla J.M. Chemistry - A European Journal, 23, 59, 14962, 14974, (2017) |
Copper(II) invigorated EHU-30 for continuous electroreduction of CO2 into value-added chemicalsLandaluce N., Perfecto-Irigaray M., Albo J., Beobide G., Castillo O., Irabien A., Luque A., Méndez A.S.J., Platero-Prats A.E., Pérez-Yáñez S. Scientific Reports, 12, 1, 8505, (2022) |
Merging the chemistry of metal-organic and polyoxometalate clusters to form enhanced photocatalytic materialsNapal J., Artetxe B., Beobide G., Castillo O., Luque A., Pascual-Colino J., Pérez-Yáñez S., Perfecto-Irigaray M. Inorganic Chemistry Frontiers, 9, 5, 935, 940, (2022) |
The Chemistry of Zirconium/Carboxylate Clustering Process: Acidic Conditions to Promote Carboxylate-Unsaturated Octahedral Hexamers and Pentanuclear SpeciesPascual-Colino J., Artetxe B., Beobide G., Castillo O., Fidalgo-Mayo M.L., Isla-López A., Luque A., Mena-Gutiérrez S., Pérez-Yáñez S. Inorganic Chemistry, 61, 12, 4842, 4851, (2022) |
Ferromagnetic supramolecular metal-organic frameworks for active capture and magnetic sensing of emerging drug pollutantsPérez-Aguirre R., Artetxe B., Beobide G., Castillo O., de Pedro I., Luque A., Pérez-Yáñez S., Wuttke S. Cell Reports Physical Science, 2, 5, 100421, (2021) |
Metastable Zr/Hf-MOFs: The hexagonal family of EHU-30 and their water-sorption induced structural transformationPerfecto-Irigaray M., Beobide G., Calero S., Castillo O., Da Silva I., Gutierrez Sevillano J.J., Luque A., Pérez-Yáñez S., Velasco L.F. Inorganic Chemistry Frontiers, 8, 22, 4767, 4779, (2021) |
Single-ion magnet and photoluminescence properties of lanthanide(Iii) coordination polymers based on pyrimidine-4,6-dicarboxylatePajuelo-Corral O., García J.A., Castillo O., Luque A., Rodríguez-Diéguez A., Cepeda J. Magnetochemistry, 7, 1, 8, 1, 20, (2021) |
Dr. Viktor Petrenko is experienced in small-angle scattering and reflectometry techniques for structural characterization of various colloidal solutions and soft matter in bulk and at interfaces. His current interest is focused onto application of small-angle neutron and X-ray scattering as well as reflectometry techniques for development of various type colloidal solutions for different applications. The main objects of his study are ferrofluids, solutions of bio-macromolecules, surfactants&polymer solutions, colloidal solutions of fullerenes, layered nanostructures, planar and developed electrochemical interfaces etc. For the moment Dr.V.I.Petrenko has 81 publications in Scopus, h index = 12.
In 2005 he received Master Diploma with Honor at Taras Shevchenko Kyiv National University (Ukraine) and then PhD in molecular physics in 2008. Doctor of science diploma in physics and mathematics was received in 2017 at Taras Shevchenko Kyiv National University (Ukraine) and title of the work was “Structure and physical properties of magnetic fluids”.
During PhD study he has performed a lot of small-angle scattering experiments at IBR-2 reactor in JINR (Russia) as well as at Budapest Neutron Center (Hungary). The PhD work was devoted to small-angle neutron scattering study of magnetic fluids and surfactants which are used for its stabilization.
During postdoc researches Dr. Petrenko personally participated in scattering experiments at the Paul Scherrer Institute (Villigen, Swiss); MLZ (Garching, Germany); HZG (Geesthacht, Germany); DESY (Hamburg, Germany) etc. Also he has received several grants/fellowships for short term stay in Germany, Slovakia and Hungary.
For the last several years he was invited to international conferences with Invited talk as well as to present his works at various seminars.
Electric field-induced assembly of magnetic nanoparticles from dielectric ferrofluids on planar interfaceKarpets M., Rajnak M., Petrenko V., Gapon I., Avdeev M., Bulavin L., Timko M., Kopcanský P. Journal of Molecular Liquids, 362, 119773, (2022) |
How fullerenes inhibit the amyloid fibril formation of hen lysozymeLee O.-S., Petrenko V.I., Šipošová K., Musatov A., Park H., Lanceros-Méndez S. Journal of Industrial and Engineering Chemistry, 106, 168, 176, (2022) |
Metal organic framework modified poly(vinylidene fluoride-co-hexafluoropropylene) separator membranes to improve lithium-ion battery capacity fadingBarbosa J.C., Gonçalves R., Valverde A., Martins P.M., Petrenko V.I., Márton M., Fidalgo-Marijuan A., Fernández de Luis R., Costa C.M., Lanceros-Méndez S. Chemical Engineering Journal, 443, 136329, (2022) |
Structural organization of ionic liquids embedded in fluorinated polymersPetrenko V.I., Fernandes L.C., Ivankov O.I., Tubio C.R., Tariq M., Esperança J.M.S.S., Correia D.M., Lanceros-Mendez S. Journal of Molecular Liquids, 360, 119385, (2022) |
Structure and Intermolecular Interactions in Aqueous Solutions of Polyethylene GlycolAlmásy L., Artykulnyi O.P., Petrenko V.I., Ivankov O.I., Bulavin L.A., Yan M., Haramus V.M. Molecules, 27, 8, 2573, (2022) |
Cotton Textile/Iron Oxide Nanozyme Composites with Peroxidase-like Activity: Preparation, Characterization, and ApplicationSafarik I., Prochazkova J., Schroer M.A., Garamus V.M., Kopcansky P., Timko M., Rajnak M., Karpets M., Ivankov O.I., Avdeev M.V., Petrenko V.I., Bulavin L., Pospiskova K. ACS Applied Materials and Interfaces, 13, 20, 23627, 23637, (2021) |
Neutron investigation of interaction between anionic surfactant micelles and poly (Ethylene glycol) polymer brush systemArtykulnyi O.P., Avdeev M.M., Kosiachkin Ye.M., Petrenko V.I., Safarik I., Bulavin L.A. Nuclear Physics and Atomic Energy, 22, 2, 149, 156, (2021) |
Neutron scattering as a powerful tool to investigate magnetic shape memory alloys: A reviewRío‐lópez N.A., Lázpita P., Salazar D., Petrenko V.I., Plazaola F., Chernenko V., Porro J.M. Metals, 11, 5, 829, (2021) |
The impact of redox, hydrolysis and dehydration chemistry on the structural and magnetic properties of magnetoferritin prepared in variable thermal conditionsBalejčíková L., Saksl K., Kováč J., Martel A., Garamus V.M., Avdeev M.V., Petrenko V.I., Almásy L., Kopčanský P. Molecules, 26, 22, 6960, (2021) |
Complexes of surfactant micelles with polymers in aqueous liquid systemsArtykulnyi O.P., Petrenko V.I., Avdeev M.V., Bulavin L.A. Ukrainian Journal of Physics, 65, 9, 778, 787, (2020) |
Fullerenes as an Effective Amyloid Fibrils Disaggregating NanomaterialSiposova K., Petrenko V.I., Ivankov O.I., Musatov A., Bulavin L.A., Avdeev M.V., Kyzyma O.A. ACS Applied Materials and Interfaces, 12, 29, 32410, 32419, (2020) |
Magnetic nanoparticle systems for nanomedicine—a materials science perspectiveSocoliuc V., Peddis D., Petrenko V.I., Avdeev M.V., Susan-Resiga D., Szabó T., Turcu R., Tombácz E., Vékás L. Magnetochemistry, 6, 1, 2, 1, 36, (2020) |
Small-angle neutron scattering study of bicelles and proteobicelles with incorporated mitochondrial cytochrome c oxidaseSiposova K., Petrenko V.I., Ivankov O.I., Bulavin L.A., Musatov A. Ukrainian Journal of Physics, 65, 8, 662, 669, (2020) |
Structural characterization of concentrated aqueous ferrofluidsNagornyi A.V., Socoliuc V., Petrenko V.I., Almasy L., Ivankov O.I., Avdeev M.V., Bulavin L.A., Vekas L. Journal of Magnetism and Magnetic Materials, 501, 166445, (2020) |
Structural investigations of poly(ethylene glycol)-dodecylbenzenesulfonic acid complexes in aqueous solutionsArtykulnyi O.P., Shibaev A.V., Avdeev M.M., Ivankov O.I., Bulavin L.A., Petrenko V.I., Philippova O.E. Journal of Molecular Liquids, 308, 113045, (2020) |
F. Javier del Campo graduated in Analytical Chemistry from Stratchlyde University (1998) and the University of the Basque Country (1999). He obtained a DPhil from the University of Oxford in 2003, where he specialized in Electrochemistry. After 18 months in industry, developing Electrochemistry-based process solutions for international companies and government agencies, he joined the Spanish National Microelectronics Centre, where he further specialized in miniaturization and systems integration, covering a number of fabrication technique including microfabrication, conventional manufacturing processes and screen printing with a focus on prototype development methodologies. During this time, his research involved the miniaturization of electrochemical sensors and biosensors for environmental and health applications, particularly in the area of point of care devices.
Single-Step Electrochemical Liquid-Liquid-Solid-Assisted Growth of Ge-Sn Nanostructures as a Long-Life Anode Material with Boosted Areal CapacityKhabazian S., Sanjabi S., Del Campo F.J., Martín E.F., Tonti D. ACS Applied Energy Materials (In Press) |
In-field one-step measurement of dissolved chemical oxygen demand with an integrated screen-printed electrochemical sensorDuan W., del Campo F.J., Gich M., Fernández-Sánchez C. Sensors and Actuators B: Chemical, 369, 132304, (2022) |
Solid Polymer Electrolytes Based on Gellan Gum and Ionic Liquid for Sustainable Electrochromic DevicesAlves R., Fidalgo-Marijuan A., Campos-Arias L., Gonçalves R., Silva M.M., Del Campo F.J., Costa C.M., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 14, 13, 15494, 15503, (2022) |
Toward Next-Generation Mobile Diagnostics: Near-Field Communication-Powered Electrochemiluminescent DetectionTotoricaguena-Gorriño J., Dei M., Alba A.F., Peřinka N., Rubio L.-R., Vilas-Vilela J.L., Del Campo F.J. ACS Sensors, 7, 5, 1544, 1554, (2022) |
Understanding electrogenerated chemiluminescence at graphite screen-printed electrodesAlba A.F., Fernández-de Luis R., Totoricaguena-Gorriño J., Ruiz-Rubio L., Sánchez J., Vilas-Vilela J.L., Lanceros-Méndez S., del Campo F.J. Journal of Electroanalytical Chemistry, 914, 116331, (2022) |
A self-powered skin-patch electrochromic biosensorSantiago-Malagón S., Río-Colín D., Azizkhani H., Aller-Pellitero M., Guirado G., del Campo F.J. Biosensors and Bioelectronics, 175, 112879, (2021) |
Integrated Photonic System for Early Warning of Cyanobacterial Blooms in AquaponicsEzenarro J.J., Ackerman T.N., Pelissier P., Combot D., Labbé L., Muñoz-Berbel X., Mas J., Del Campo F.J., Uria N. Analytical Chemistry, 93, 2, 722, 730, (2021) |
Laser-activated screen-printed carbon electrodes for enhanced dopamine determination in the presence of ascorbic and uric acidAlba A.F., Totoricaguena-Gorriño J., Sánchez-Ilárduya M.B., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Méndez S., del Campo F.J. Electrochimica Acta, 399, 139374, (2021) |
Laser-induced highly oriented pyrolytic graphite for high-performance screen-printed electrodesAlba A.F., Totoricaguena-Gorrino J., Campos-Arias L., Peřinka N., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Méndez S., Del Campo F.J. Materials Advances, 2, 18, 5912, 5921, (2021) |
Recycling and environmental issues of lithium-ion batteries: Advances, challenges and opportunitiesCosta C.M., Barbosa J.C., Gonçalves R., Castro H., Campo F.J.D., Lanceros-Méndez S. Energy Storage Materials, 37, 433, 465, (2021) |
Smartphone-enabled personalized diagnostics: Current status and future prospectsMerazzo K.J., Totoricaguena-Gorriño J., Fernández-Martín E., Javier Del Campo F., Baldrich E. Diagnostics, 11, 6, 1067, (2021) |
A 15-μW 105-dB 1.8-Vpp potentiostatic delta-sigma modulator for wearable electrochemical transducers in 65-nm CMOS technologyAymerich J., Marquez A., Munoz-Berbel X., Campo F.J.D., Guirado G., Teres L., Serra-Graells F., Dei M. IEEE Access, 8, 9050552, 62127, 62136, (2020) |
Microfluidic-Assisted Blade Coating of Compositional Libraries for Combinatorial Applications: The Case of Organic PhotovoltaicsRodríguez-Martínez X., Sevim S., Xu X., Franco C., Pamies-Puig P., Córcoles-Guija L., Rodriguez-Trujillo R., del Campo F.J., Rodriguez San Miguel D., deMello A.J., Pané S., Amabilino D.B., Inganäs O., Puigmartí-Luis J., Campoy-Quiles M. Advanced Energy Materials, 10, 33, 2001308, (2020) |
Development of Silk Fibroin Scaffolds for Vascular RepairDurán-Rey D., Brito-Pereira R., Ribeiro C., Ribeiro S., Sánchez-Margallo J.A., Crisóstomo V., Irastorza I., Silván U., Lanceros-Méndez S., Sánchez-Margallo F.M. Biomacromolecules (In Press) |
Development and evaluation of different electroactive poly(vinylidene fluoride) architectures for endothelial cell cultureDurán-Rey D., Brito-Pereira R., Ribeiro C., Ribeiro S., Sánchez-Margallo J.A., Crisóstomo V., Irastorza I., Silván U., Lanceros-Méndez S., Sánchez-Margallo F.M. Frontiers in Bioengineering and Biotechnology, 10, 1044667, (2022) |
Dynamic and Self-Healable Chitosan/Hyaluronic Acid-Based In Situ-Forming HydrogelsMaiz-Fernández S., Pérez-Álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Méndez S. Gels, 8, 8, 477, (2022) |
Electro and magnetoactive printed bi-functional actuators based on alginate hybrid hydrogelsMaiz-Fernández S., Pérez-Álvarez L., de Munain-Arroniz I.L., Zoco A., Lopes A.C., Silván U., Salazar D., Vilas-Vilela J.L., Lanceros-Mendez S. International Journal of Biological Macromolecules, 219, 374, 383, (2022) |
pH-Induced 3D Printable Chitosan Hydrogels for Soft ActuationMaiz-Fernández S., Pérez-álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Méndez S. Polymers, 14, 3, 650, (2022) |
Photocrosslinkable and self-healable hydrogels of chitosan and hyaluronic acidMaiz-Fernández S., Pérez-Álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Mendez S. International Journal of Biological Macromolecules, 216, 291, 302, (2022) |
3D printable self-healing hyaluronic acid/chitosan polycomplex hydrogels with drug release capabilityMaiz-Fernández S., Barroso N., Pérez-Álvarez L., Silván U., Vilas-Vilela J.L., Lanceros-Mendez S. International Journal of Biological Macromolecules, 188, 820, 832, (2021) |
Focus on time: dynamic imaging reveals stretch-dependent cell relaxation and nuclear deformationHorvath A.N., Ziegler A.A., Gerhard S., Holenstein C.N., Beyeler B., Snedeker J.G., Silvan U. Biophysical Journal, 120, 5, 764, 772, (2021) |
Oxygen plasma-assisted ultra-low temperature sol-gel-preparation of the PZT thin filmsLi H., Hu Y., Wei S., Meng Y., Wang N., Zhang Q., Liu L., Peng B. Ceramics International (In Press) |
Numerical Simulation of a Viscoelastic Thinning Process for Preparing Flexible Glasses by Redrawing MethodLiu B., Yuan J., Guo Z., Zhang Q., Han Z., Tan J., Tian P., Zheng W. Journal Wuhan University of Technology, Materials Science Edition, 38, 1, 65, 71, (2023) |
B-Site Nanoscale-Ordered Structure Enables Ultra-High Tunable PerformancePeng B., Lu Q., Wang Y.-C., Li J.-F., Zhang Q., Huang H., Liu L., Li C., Zheng L., Wang Z.L. Research, 2022, 9764976, (2022) |
Dynamic Behavior of Polar Nanoregions in Re-Entrant Relaxor 0.6Bi(Mg1/2Ti1/2)O3–0.4PbTiO3Chen K., Zhang Q., Liu J., Wang J., Lan Z., Fang L., Hu C., Luo N., Peng B., Long C., Wang D., Liu L. Physica Status Solidi (A) Applications and Materials Science, 219, 6, 2100579, (2022) |
Facile synthesis of hierarchical MoS2/ZnS @ porous hollow carbon nanofibers for a stable Li metal anodeWen J., Song X., Li X., Yan C., Zou J., Wu H., Zhang Q., Zeng X. Journal of Colloid and Interface Science, 622, 347, 356, (2022) |
Giant electrocaloric effect in BiFeO3 and La codoped PbZr0.7Ti0.3O3 epitaxial thin films in a broad temperature rangeZhang M., Liu L., Yang R., Yu P., Zhang Q., Peng B. Journal of Materiomics, 8, 1, 156, 165, (2022) |
Large electrocaloric effect in two-step-SPS processed Pb(Sc0.25In0.25Nb0.25Ta0.25)O3 medium-entropy ceramicsWei S., Chen X., Dong G., Liu L., Zhang Q., Peng B. Ceramics International, 48, 11, 15640, 15646, (2022) |
Origin of the ultra-wide temperature dielectric stability and dynamic behavior of nanoregions in 0.6Bi(Mg0.5Ti0.5)O3-0.4Ba0.8Ca0.2(Ti0.875Zr0.125)O3Chen K., Yan T., Liu J., Lei X., Fang L., Peng B., Lanceros-Méndez S., Wang D., Liu L., Zhang Q. Journal of Materials Chemistry C, 17, 4, (2022) |
Recycling methods for different cathode chemistries – A critical reviewWang Y., Goikolea E., de Larramendi I.R., Lanceros-Méndez S., Zhang Q. Journal of Energy Storage, 56, 106053, (2022) |
State of the art and current trends on layered inorganic-polymer nanocomposite coatings for anticorrosion and multi-functional applicationsTeijido R., Ruiz-Rubio L., Echaide A.G., Vilas-Vilela J.L., Lanceros-Mendez S., Zhang Q. Progress in Organic Coatings, 163, 106684, (2022) |
Study on the ion-exchange copper-loaded antibacterial glassesTeng F., Yuan J., Tian P., Zhang Q., Du X., Li C., Wang W. Ceramics International, 48, 22, 32798, 32803, (2022) |
Adhesiveless Bonding of Wood - A Review with a Focus on Wood WeldingGedara A.K.A., Chianella I., Endrino J.L., Zhang Q. BioResources, 16, 3, 6448, 6470, (2021) |
Alkali-treated Wheat Gluten Cross-linked with Sodium Alginate as a Bio-based Wood Adhesive for Interior Grade ParticleboardGedara A.K.A., Chianella I., Bhattacharyya D., Endrino J.L., Zhang Q. BioResources, 16, 4, 7916, 7934, (2021) |
Batch chemical bath deposition of large-area SnO2 film with mercaptosuccinic acid decoration for homogenized and efficient perovskite solar cellsZhang J., Bai C., Dong Y., Shen W., Zhang Q., Huang F., Cheng Y.-B., Zhong J. Chemical Engineering Journal, 425, 131444, (2021) |
Construction of Co/N-doped porous rose-like structure for efficient oxygen reduction reaction catalyst and Zn-air batteryPeng M., Liu P., Li Z., Li Z., Wen J., Yan C., Zhang Q., Zeng X., Zou J. Applied Surface Science, 566, 150665, (2021) |
Construction of hydrangea-like nickel cobalt sulfide through efficient microwave-assisted approach for remarkable supercapacitorsZhao F., Xie D., Song X., Wu H., Zhang Q., Zou J., Zeng X. Applied Surface Science, 539, 148260, (2021) |
Formation and quantitative analysis of internal structure of Si nanoparticles developed via bead-millingZhao M., Zhang J., Wang W., Zhang Q. AIP Advances, 11, 7, 075101, (2021) |
High effective preparation of amorphous-like si nanoparticles using spark erosion followed by bead millingZhao M., Zhang J., Wang W., Zhang Q. Nanomaterials, 11, 3, 594, 1, 15, (2021) |
Metal-organic frameworks and zeolite materials as active fillers for lithium-ion battery solid polymer electrolytesBarbosa J.C., Gonçalves R., Costa C.M., De Zea Bermudez V., Fidalgo-Marijuan A., Zhang Q., Lanceros-Méndez S. Materials Advances, 2, 12, 3790, 3805, (2021) |
Microwave rapid synthesis of nickel cobalt sulfides/CNTs composites as superior cycling ability electrode materials for supercapacitorsZou J., Xie D., Zhao F., Wu H., Niu Y., Li Z., Zou Q., Deng F., Zhang Q., Zeng X. Journal of Materials Science, 56, 2, 1561, 1576, (2021) |
Microwave-assisted synthesis of Cr3C2@C core shell structure anchored on hierarchical porous carbon foam for enhanced polysulfide adsorption in Li-S batteriesZeng X., Tu J., Chen S., Zeng S., Zhang Q., Zou J., Li K. Nano Research, 14, 7, 2345, 2352, (2021) |
P-GaN-substrate sprouted giant pure negative electrocaloric effect in Mn-doped Pb(Zr0.3Ti0.7)O3 thin film with a super-broad operational temperature rangePeng B., Wang T., Liu L., Chen X., Li J., Zhang Q., Yang R., Sun W., Wang Z.L. Nano Energy, 86, 106059, (2021) |
The preparation of mass producible, highly-cycling stable Si/C anode materials with nano-sized silicon crystals embedded in highly amorphous silicon matrixZhao M., Zhang J., Wang W., Zhang Q. Nanotechnology, 32, 48, 485404, (2021) |
ZTIFs derived nitrogen-introduced high specific area and hierarchical porous carbon for oxygen reduction reactionZou J., Peng M., Liu P., Zhang S., Zhang Q., Deng F., Zeng X., Li X. Journal of Materials Science: Materials in Electronics, 32, 13, 17094, 17104, (2021) |
Defect-rich honeycomb-like nickel cobalt sulfides on graphene through rapid microwave-induced synthesis for ultrahigh rate supercapacitorsZhao F., Xie D., Huang W., Song X., Aurang Zeb Gul Sial M., Wu H., Deng F., Zhang Q., Zou J., Zeng X. Journal of Colloid and Interface Science, 580, 160, 170, (2020) |
Giant energy storage density in lead-free dielectric thin films deposited on Si wafers with an artificial dead-layerChen X., Peng B., Ding M., Zhang X., Xie B., Mo T., Zhang Q., Yu P., Wang Z.L. Nano Energy, 78, 105390, (2020) |
Low-temperature-poling awakened high dielectric breakdown strength and outstanding improvement of discharge energy density of (Pb,La)(Zr,Sn,Ti)O3 relaxor thin filmPeng B., Tang S., Lu L., Zhang Q., Huang H., Bai G., Miao L., Zou B., Liu L., Sun W., Wang Z.L. Nano Energy, 77, 105132, (2020) |
Understanding phase-transfer catalytic synthesis of fullerenol and its interference from carbon dioxide and ozoneChokaouychai S., Zhang Q. Research on Chemical Intermediates, 46, 12, 5391, 5415, (2020) |
Conformationally Restricted β-Sheet Breaker Peptides Incorporating Cyclic α-Methylisoserine SulfamidatesMazo N., Navo C.D., Peccati F., Andreo J., Airoldi C., Goldsztejn G., Çarçabal P., Usabiaga I., Sodupe M., Wuttke S., Busto J.H., Peregrina J.M., Cocinero E.J., Jiménez-Osés G. Chemistry - A European Journal, 29, 9, e202202913, (2023) |
Magnetic sustentation as an adsorption characterization technique for paramagnetic metal-organic frameworksBarroso N., Andreo J., Beobide G., Castillo O., Luque A., Pérez-Yáñez S., Wuttke S. Communications Chemistry, 6, 1, 4, (2023) |
Crystal engineering of aurophilic supramolecular architectures and coordination polymers based on butterfly-like copper-dicyanoaurate complexes: vapochromism, P-T behaviour and multi-metallic cocrystal formationPriola E., Curetti N., Marabello D., Andreo J., Giordana A., Andreo L., Benna P., Freire P.T.C., Benzi P., Operti L., Diana E. CrystEngComm, 24, 12, 2336, 2348, (2022) |
How Reproducible are Surface Areas Calculated from the BET Equation?Osterrieth J.W.M., Rampersad J., Madden D., Rampal N., Skoric L., Connolly B., Allendorf M.D., Stavila V., Snider J.L., Ameloot R., Marreiros J., Ania C., Azevedo D., Vilarrasa-Garcia E., Santos B.F., Bu X.-H., Chang Z., Bunzen H., Champness N.R., Griffin S.L., Chen B., Lin R.-B., Coasne B., Cohen S., Moreton J.C., Colón Y.J., Chen L., Clowes R., Coudert F.-X., Cui Y., Hou B., D'Alessandro D.M., Doheny P.W., Dincă M., Sun C., Doonan C., Huxley M.T., Evans J.D., Falcaro P., Ricco R., Farha O., Idrees K.B., Islamoglu T., Feng P., Yang H., Forgan R.S., Bara D., Furukawa S., Sanchez E., Gascon J., Telalović S., Ghosh S.K., Mukherjee S., Hill M.R., Sadiq M.M., Horcajada P., Salcedo-Abraira P., Kaneko K., Kukobat R., Kenvin J., Keskin S., Kitagawa S., Otake K.-I., Lively R.P., DeWitt S.J.A., Llewellyn P., Lotsch B.V., Emmerling S.T., Pütz A.M., Martí-Gastaldo C., Padial N.M., García-Martínez J., Linares N., Maspoch D., Suárez del Pino J.A., Moghadam P., Oktavian R., Morris R.E., Wheatley P.S., Navarro J., Petit C., Danaci D., Rosseinsky M.J., Katsoulidis A.P., Schröder M., Han X., Yang S., Serre C., Mouchaham G., Sholl D.S., Thyagarajan R., Siderius D., Snurr R.Q., Goncalves R.B., Telfer S., Lee S.J., Ting V.P., Rowlandson J.L., Uemura T., Iiyuka T., van der Veen M.A., Rega D., Van Speybroeck V., Rogge S.M.J., Lamaire A., Walton K.S., Bingel L.W., Wuttke S., Andreo J., Yaghi O., Zhang B., Yavuz C.T., Nguyen T.S., Zamora F., Montoro C., Zhou H., Kirchon A., Fairen-Jimenez D. Advanced Materials, 34, 27, 2201502, (2022) |
Long-term whole blood DNA preservation by cost-efficient cryosilicificationZhou L., Lei Q., Guo J., Gao Y., Shi J., Yu H., Yin W., Cao J., Xiao B., Andreo J., Ettlinger R., Jeffrey Brinker C., Wuttke S., Zhu W. Nature Communications, 13, 1, 6265, (2022) |
MOF Synthesis Prediction Enabled by Automatic Data Mining and Machine Learning**Luo Y., Bag S., Zaremba O., Cierpka A., Andreo J., Wuttke S., Friederich P., Tsotsalas M. Angewandte Chemie - International Edition, 61, 19, e202200242, (2022) |
Reticular Nanoscience: Bottom-Up Assembly NanotechnologyAndreo J., Ettlinger R., Zaremba O., Peña Q., Lächelt U., De Luis R.F., Freund R., Canossa S., Ploetz E., Zhu W., Diercks C.S., Gröger H., Wuttke S. Journal of the American Chemical Society, 144, 17, 7531, 7550, (2022) |
25 Years of Reticular ChemistryFreund R., Canossa S., Cohen S.M., Yan W., Deng H., Guillerm V., Eddaoudi M., Madden D.G., Fairen-Jimenez D., Lyu H., Macreadie L.K., Ji Z., Zhang Y., Wang B., Haase F., Wöll C., Zaremba O., Andreo J., Wuttke S., Diercks C.S. Angewandte Chemie - International Edition, 60, 45, 23946, 23974, (2021) |
Applications of reticular diversity in metal–organic frameworks: An ever-evolving state of the artEjsmont A., Andreo J., Lanza A., Galarda A., Macreadie L., Wuttke S., Canossa S., Ploetz E., Goscianska J. Coordination Chemistry Reviews, 430, 213655, (2021) |
Unprecedented [d9]Cu⋯[d10]Au coinage bonding interactions in {Cu(NH3)4[Au(CN)2]}+[Au(CN)2]−saltPriola E., Mahmoudi G., Andreo J., Frontera A. Chemical Communications, 57, 59, 7268, 7271, (2021) |
Synthesis and functionalization of inorganic nanoparticles
Preparation of polymer-based nanocomposite membranes
Adsorptive and photocatalytic processes for water remediation
Sintering of ceramic materials
Cold sintering process
Advanced physical, chemical, and structural characterization
Electrochemical characterization
Hugo Salazar received his PhD in Materials Engineering in 2022 from University of Minho (Portugal), with a work based on the development multifunctional nanocomposite membranes for water remediation, comprising the synthesis and functionalization of inorganic materials, the preparation of polymer-based membranes, and the application of heavy metals and organic compounds removal from water by adsorption and photocatalytic-based processes.
In 2022 he joined BC Materials as a Post-Doctoral Research Fellow, in the research area of Advanced Functional Materials and Surfaces. His research is focused on the development of ceramic-based composite functional materials for energy storage applications, by using novel low temperature and energy sintering processes.
Comparative performance and ecotoxicity assessment of Y2(CO3)3, ZnO/TiO2, and Fe3O4 nanoparticles for arsenic removal from waterSalazar H., Martins P.M., Batista D., Shejale K.P., Sharma R.K., Krishnapriya R., Ferdov S., Botelho G., Fidalgo-Marijuan A., Cássio F., Lanceros-Mendez S. Environmental Science: Water Research and Technology, 8, 8, 1719, 1730, (2022) |
Multifunctional hybrid membranes for photocatalytic and adsorptive removal of water contaminants of emerging concernMartins P.M., Santos B., Salazar H., Carabineiro S.A.C., Botelho G., Tavares C.J., Lanceros-Mendez S. Chemosphere, 293, 133548, (2022) |
Reusable composite membranes for highly efficient chromium removal from real water matrixesQueirós J.M., Salazar H., Valverde A., Botelho G., Fernández de Luis R., Teixeira J., Martins P.M., Lanceros-Mendez S. Chemosphere, 307, 135922, (2022) |
Reusable Nanocomposite Membranes for Highly Efficient Arsenite and Arsenate Dual Removal from WaterSalazar H., Martins P.M., Valverde A., Fernández de Luis R., Vilas-Vilela J.L., Ferdov S., Botelho G., Lanceros-Mendez S. Advanced Materials Interfaces, 9, 10, 2101419, (2022) |
Reusable nanocomposite-filters for arsenite and arsenate dual real effluents remediation in an up-scaled membrane reactorSalazar H., Martins P.M., Fernandes M.M., Costa P., Ferdov S., Botelho G., Lanceros-Mendez S. Journal of Hazardous Materials, 440, 129756, (2022) |
Solar Photocatalytic Membranes: An Experimental and Artificial Neural Network Modeling Approach for Niflumic Acid DegradationAoudjit L., Salazar H., Zioui D., Sebti A., Martins P.M., Lanceros-Méndez S. Membranes, 12, 9, 849, (2022) |
Crystal morphology control of synthetic giniite for enhanced photo-Fenton activity against the emerging pollutant metronidazoleMartins P.M., Salazar H., Aoudjit L., Gonçalves R., Zioui D., Fidalgo-Marijuan A., Costa C.M., Ferdov S., Lanceros-Mendez S. Chemosphere, 262, 128300, (2021) |
Reusable ag@tio2-based photocatalytic nanocomposite membranes for solar degradation of contaminants of emerging concernAoudjit L., Salazar H., Zioui D., Sebti A., Martins P.M., Lanceros-Mendez S. Polymers, 13, 21, 3718, (2021) |
Photocatalytic and antimicrobial multifunctional nanocomposite membranes for emerging pollutants water treatment applicationsSalazar H., Martins P.M., Santos B., Fernandes M.M., Reizabal A., Sebastián V., Botelho G., Tavares C.J., Vilas-Vilela J.L., Lanceros-Mendez S. Chemosphere, 250, 126299, (2020) |
Polymer-based membranes for oily wastewater remediationZioui D., Salazar H., Aoudjit L., Martins P.M., Lanceros-Méndez S. Polymers, 12, 1, 42, (2020) |
Poly(vinylidene fluoride-hexafluoropropylene)/bayerite composite membranes for efficient arsenic removal from waterSalazar H., Nunes-Pereira J., Correia D.M., Cardoso V.F., Gonçalves R., Martins P.M., Ferdov S., Martins M.D., Botelho G., Lanceros-Méndez S. Materials Chemistry and Physics, 183, 430, 438, (2016) |
Use of some techniques: X-Ray Diffraction (XRD) and Rietveld refinement, scanning electron microscopy (SEM), vibrating sample magnetometry (VSM), X-Ray photoemission spectroscopy (XPS) and others.
Mariana Ríos Naranjo graduated in Physics in 2014 from the National University of Colombia (Bogotá). Her degree thesis "modelling of the gas diffusion process in semiconductor films", focused on analysis the problem of initial conditions to solve the difussion differental equations and the modifications in process when porous appear into film.
Afterwards, she completed her master's degree in physics (2018) with the thesis entitled "Fabrication and Characterization of Perovskites type La1-xDyxMn1-yZnyO3 with Metallic Substitutions" in the National University of Colombia. In that research, she estimated the effect that the inclusion of the non-magnetic ion had on the structural distortions of the perovskite-like structure and magnetocaloric response.
From 2016 to 2022, she worked in some Colombian Universities as a physics professor and was in management positions related to laboratories and implementation of Colombian research policies.
Currently, she works as a pre-doctoral researcher within the IKUR Neutrionics Strategy: Heusler alloys and magnetocaloric effect.
“Effects of Doping on the Structural Distortion of La0.7Dy0.3Mn1-xZnxO3”. J.F. López; M. Ríos; G.A. Mendoza. ACTA PHYSICA POLONICA A. Vol. 131 (2017). DOI: 10.12693/APhysPolA.131.1254
https://scienti.minciencias.gov.co/cvlac/visualizador/generarCurriculoCv.do?cod_rh=0001334798
Neutron and X-ray scattering (small-angle scattering, reflectometry), fullerene/colloidal solutions, glass transition (theory, kinetics), clusters formation and growth (nucleation theory, aggregation), polymer nanocomposites, thin films.
Timur Tropin has obtained his Masters degree at the Neutronography chair, Physics department of the Lomonosov Moscow State University. During his diploma work he started research at the Frank Laboratory of Neutron Physics (FLNP) of the Joint Institute for Nuclear Research (JINR) in Dubna. At this time his research was connected with small-angle neutron scattering (SANS) studies of clusters formation and growth in various fullerene C60 solutions. Also, in collaboration with Dr. Juern Schmelzer (JINR Bogoliubov Laboratory of Theoretical Physics & Rostock University) he was developing a theoretical description of fullerenes cluster growth kinetics basing on nucleation theory.
His further research was broadened to studying colloidal solutions, polymer nanocomposite thin films and other soft condensed matter systems using SANS / SAXS and reflectometry. This works included experiments at IBR-2 pulsed neutron reactor in Dubna and the external synchrotron and neutron research facilities. Additional investigations connected with general theory of nucleation and glass transition kinetics were conducted during his regular visits to Rostock University since 2011.
At present, Timur is a PostDoc working with Viktor Petrenko under IKUR project aimed at detailed characterization of nanoparticles for advanced applications.
His current scientific interests are in the area of neutron scattering investigations of soft condensed matter systems, including colloidal solutions, thin films and nanocomposites. He is also working in the field of statistical mechanics approaches for the nucleation theory, glass transition and nanoparticles aggregation kinetics.
I am at BCMaterials doing a dual degree in administration and finance, I am also a technician in documentation and health administration.
Computer Aided Drug Designing, Molecular Modelling, Virtual Screening, Molecular Dynamics Simulations, Antimicrobials assays
Dr. Vikas Kumar obtained his M.Sc. in Microbiology in 2014 and M.Phil. in Biotechnology in 2019 from Himachal Pradesh University, Shimla, India. In 2019, Dr. Vikas Kumar commenced his Ph.D. program at the Department of Bio and Medical Big Data, Gyeongsang National University, South Korea, under the prestigious Brain Korea Fellowship. In 2023, he accomplished the successful completion of his PhD. Throughout his doctoral research, Dr. Kumar focused on developing different types of pharmacophore models to identify novel hit drug candidates targeting anti-cancer and antiviral proteins. His innovative contributions resulted in the publication of over 25 scientific research papers in esteemed SCIE/SCOPUS indexed journals. Currently, Dr. Kumar serves as a Postdoctoral researcher at BCMaterials, Spain, where he is part of the IKUR program working alongside Prof. Ivan Colluza. His current project revolves around the ultrawide screening of anti-viral drugs. With his expertise and dedication, he aims to make significant contribution in identifying potential therapeutic agents to combat viral infections.
My research interests encompass the integration of machine learning techniques in drug discovery, alongside computer-aided drug design. Additionally, I explore drug repurposing strategies and employ molecular dynamics simulations to expedite the development of innovative therapeutics.
ORCID
0000-0003-4468-3459
Google Scholar
https://scholar.google.com/citations?hl=en&user=BwQ_KLYAAAAJ&view_op=list_works&sortby=pubdate
Jesús Matías Alcaine earned his BSc. in Physics in 2022 at the University of Zaragoza (UNIZAR). There it started his interest in quantum physics, finishing with honors his bachelor's thesis regarding multimode cavity QED. In 2023 he obtained his MSc. in Quantum Science and Technology at the Basque Country University (UPV-EHU). His master's thesis dealt with the study of symmetry-protected gates on superconducting circuits, focusing on the areas of Quantum Computing and Simulation.
He is now pursuing a PhD at BCMaterials and the UPV-EHU on quantum simulations of quantum spin ice models. His research focuses on the development of quantum lattice gauge theories towards artificial spin ices (ASIs), including the exploration of frustrated quantum systems, micromagnetic simulations of ASIs, and the study of the convergence of the micromagnetic simulations facing theoretical frustrated quantum systems.
During her university career she has worked with diverse techniques such as X-ray diffraction, transmission electron microscopy, thermogravimetry, tandem mass spectrometry, chromatography or solid phase separation.
Elvira Vidal graduated in Chemistry in 2022 at the University of Salamanca and her degree tesis was on "Determination of melatonin in plasma" performed at Nucleus. She has Master studies in the branch of New Materials carried out at the universities of the Basque Country and Cantabria.
Now, Elvira will carry out her PhD studies at BCMaterials under the supervision of Roberto Fernández de Luis in the development of advanced MOFs with applications in environmental science and green energy generation. The main task of the project is devoted to the chemical encoding of Metal-Organic Frameworks with natural and synthetic amino acids, peptides and bioradicals, and their posterior application as sorbents and catalysts.
Mario Fernández-Pendás did his PhD in Mathematics and Statistics in the Basque Center for Applied Mathematics (BCAM) in Bilbao under the supervision of Prof. Elena Akhmatskaya. He worked on the development of numerical integration methods and enhanced sampling techniques (Monte Carlo based) applied to the field of molecular dynamics. After a one year teaching position in the University of Oviedo he did a postdoc in the Donostia International Physics Center (DIPC) and Rutgers University (NJ, USA). In DIPC he worked under the supervision of Prof. Xabier López and David de Sancho in the field of protein simulations (more specifically intrinsically disordered proteins). On the other hand, during the stay in Rutgers in the US he worked in the development of new free energy computation techniques in the group of Prof. Darrin York.
https://scholar.google.es/citations?user=ARiPePgAAAAJ&hl=en
https://orcid.org/0000-0002-9193-0048
https://www.researchgate.net/profile/Mario-Fernandez-Pendas
https://www.scopus.com/authid/detail.uri?authorId=56461393500
Thin Films, Magnetic Properties, Electric properties
Santiago Ceballos Medina graduated in Materials Engineering in 2020 from the Universidad del Valle (Cali, Colombia). His degree thesis focused on the study of resistive switching behaviour in thin films fabricated with multifunctional oxides as BiFeO3 and YBa2Cu3O7-. Afterwards, his master's degree in Materials Egineering (2023) was about magnetic thin films made by high vacuum thermal evaporation in Universidad del Valle. In that research the study was focused not only with the experimental approach but also with micromagnetics simulations on the MnAlC thin films.
From 2021 to 2022, he worked as "Young Researcher and Innovator" by Colombian Minister of Science scholarship. In 2022 AUIP granted to him the mobility scholarship for research stay at Universidad del País Vasco. In 2023 he worked in "IMPENANO" project at Universidad del Valle and did and Research stay at France due to ECOS-NORD mobility agreement.
Currently, he works as a pre-doctoral researcher within the MMMASINT - Advanced magnetoactive materials for new intelligent systems.
Further information:
LinkedIn
Quantum computing applied on optimization problems.
Aingeru Ramos Auzmendi graduated in Computer Science from Basque Country University (2022). His degree thesis was focused in the use of quantum adiabatic systems for the resolution of linear problems. Also did the master of Artificial Intelligent of the same university (2023) while working in the Intelligent System Group (ISG) for a project with the General Council of Gipuzkoa. Currently is a pre-doctoral researcher in BCMaterials.
Multiphysics modelling and simulation, AI models, electromechanical design, characterization and validation of sensors, ultrasounds and wave propagation.
Javier Vicente graduated with a Masters' degree in Industrial Engineering from Mondragon Unibertsitatea in 2016. He subsequently earned his PhD from the same university, supported by a Basque Government predoctoral grant. His doctoral research focused on monitoring and sensing techniques, culminating in the development of a novel pressure sensing system based on nanocomposite materials for industrial applications. He worked in Mondragon Unibertsitatea as a researcher and lecturer in both Signal Theory and Applied Mechanics departments.
Javier has actively contributed to several public and industry-funded projects, specializing in creating practical sensing solutions for industry sectors such as machining, automotive, and aerospace with application in Structural Health Monitoring, Condition Monitoring and Non-Destructive Inspections. In said projects he was involved in the design, modelling, simulation and experimental validation of the developed sensing systems. His most recent activities have been related with the development of Non-Contact ultrasonic transducers and inspection techniques for industrial applications. He is now a Post-Doctoral researcher at BCMaterials.
Javier's research interests revolve around the leverage of novel functional materials for advancing sensing, inspection, and monitoring techniques in the framework of Industry Digitalization and IoT.
Alexander Mirandona-Olaeta earned his Chemical Engineering degree in 2022 at UPV/EHU Euskal Herriko Unibertsitatea and finished a Master Degree in New Materials at the same university in 2023. His Degree Final Project and Master´s thesis consisted on the development of materials based on porous metal-organic frameworks (MOFs) oriented to the energy challenge. The main objective was to develop MOF/Ionic Liquid (IL) composite materials for electrolytes in solid state batteries.
Now, Alexander will work with Idoia Ruiz de Larramendi (UPV/EHU) and Arkaitz Fidalgo Marijuan in the study and development of rational design of metal-organic frameworks-based materials for next-generation rechargeable batteries as a Predoctoral Researcher. This project aims to contribute to the development of innovative technologies in electrochemical storage, targeting low-cost and environmentally friendly systems. Specifically, it focuses on the design of solid electrolytes to be implanted in lithium and sodium batteries, which is a challenging task.
Ane García García finished her Chemistry degree in 2022 at the University of the Basque Country (UPV/EHU). Her degree thesis was on “Biofunctionalization of PLLA via copper-free click reaction between azide and alkyne” carried out in the Research Group of "Macromolecular Chemistry (LABQUIMAC)" of the University of the Basque Country.
After that, she completed a master's in pharmacology at the University of Basque Country and she finished it in 2023. Her thesis was based on the study of the sequential bioconjugation of indomethacin and salicylic acid on PLLA surfaces. In addition to studying the antibiotic activity and their synergistic relationship.
Finishing her studies, she is currently starting her PhD on hydrogels in biomedical applications at BCMaterials together with the Macromolecular Chemistry Group (LABQUIMAC) of the UPV/EHU under the direction of Unai Silvan and Leyre Pérez.
Polymers and hydrogels, biomaterials, wearable flexible electronic systems
Guillermo Conejo-Cuevas earned his Chemistry degree at the University of Basque Country in 2021 and finished his Master Degree in New Materials in 2023. His Bachelor thesis, carried out with Labquimac group in the Physical Chemistry Deparment, was about the development and optimization of mechanical and electronic properties of hydrogels for weareable electronic devices.
Now, Guillermo will work with F. Javier del Campo and Leire Ruiz Rubio in electrochemical sensors as a Predoctoral Researcher.
Optoelectronics devices, Synthesis of Perovskite Single Crystals, Solar cells, Detectors
Dr. Ramashanker Gupta is a researcher in materials science and optoelectronics, focusing on perovskite single-crystal growth and its applications in solar cells and detector applications. Born in India, Dr. Gupta pursued a bachelor's degree in Electronics and Communication Engineering and earned a Ph.D. under the supervision of Dr. Ritu Srivastava, Senior Principal Scientist, CSIR-National Physical Laboratory, India and Dr.Vinay Gupta, Khalifa University Madsar, UAE. His Ph.D. awarded. in Engineering Sciences from CSIR-National Physical Laboratory India. His research focused on synthesizing and characterizing perovskite single crystals for optoelectronic applications, leading to the development of a novel crystal growth technique that significantly improved the quality and efficiency of perovskite single crystals.
After completing his Ph.D., Dr. Gupta worked as a project scientist at Dr. Sandeep Pathak's lab at IIT Delhi, where he develops further expertise in perovskite single crystal for detector application (UV-Vis/NIR) and High energy photon (X-ray and Gamma-ray) applications. His work on perovskite materials has advanced the fundamental understanding of these materials and paved the way for their commercial applications in solar cells, light-emitting diodes (LEDs), and Detectors.
As a postdoctoral researcher in Basque Center for Material at UPV/EHU, Dr. Gupta continues to explore new frontiers in materials science and optoelectronics, aiming to further optimize perovskite materials for commercial applications and expand their use in emerging technologies.
Research interest lies in the cutting-edge field of tandem perovskite solar cells.Working on the intriguing perovskite-single crystal for solar cell applications and optoelectronics devices
Dr. Lucarini is an industrial engineer who received his PhD in 2020 and has worked as a predoctoral and postdoctoral researcher in Spain, the US and the UK. He has authored over 11 international publications in computational solid mechanics and currently holds a Ikerbasque Reseach Fellowship. Dr. Lucarini's research focuses on simulating the multi-physics behavior of materials at various length scales, including composites, metals, lattice-based metamaterials, and porous materials. He is proficient in developing models and simulation techniques for computational micro-magneto-electro-mechanics and has created several open-source research codes. Dr. Lucarini has also established a research network of collaborations with teams around the world, co-supervised theses, served as a peer reviewer for prestigious international journals, and has teaching experience at two universities.
Polymers and hydrogels, biomaterials, photopolymeritation.
Elena Pagalday Jimenez graduated in chemistry in 2022 at the University of the Basque Country (UPV/EHU), San Sebatian and finished his Master Degree in New Materials in 2023 at the University of the Basque Country (UPV/EHU), Leioa. Her bachelor thesis was on "Synthesis of water-based polyurethanes with casein for their use as flame retardants" in Department of Polymers and Advanced Materials, University of Basque Country, San Sebastian. Her Master’s Final Project was on "Ink development with advanced properties for 3D printing" in Department of Physics and Chemistry, University of Basque Country, Leioa.
Mahdi Gassara has received his Master Degree in Chemistry from University of Sfax- Tunisia in 2020. His master´s thesis was focused on Synthesis of low-dimensional perovskite and its applications at the Faculty of Sciences of Sfax (FSS)- Tunisia. Then he continue at the same Faculty, as a Ph.D student working on of Low Dimensional Perovskites for opt electronics application. He has experienced in synthesis, structural and optical characterizations of hybrid halide perovskite materials. Then He joined with the Advanced Functional Materials group in BCMaterials as a visitor from April to June 2022, to become after that a pre-Doc with the same group in March 2023, working on the development of Perovskite Solar Cells under Prof. Shahzada Ahmad.
A method for the controllable fabrication of optical fiber-based localized surface plasmon resonance sensorsCalatayud-Sanchez A., Ortega-Gomez A., Barroso J., Zubia J., Benito-Lopez F., Villatoro J., Basabe-Desmonts L. Scientific Reports, 12, 1, 9566, (2022) |
Ex situ and in situ Magnetic Phase Synthesised Magneto-Driven Alginate BeadsBimendra Gunatilake U., Venkatesan M., Basabe-Desmonts L., Benito-Lopez F. Journal of Colloid and Interface Science, 610, 741, 750, (2022) |
High-Resolution 3D Printing Fabrication of a Microfluidic Platform for Blood Plasma SeparationGarcia-Rey S., Nielsen J.B., Nordin G.P., Woolley A.T., Basabe-Desmonts L., Benito-Lopez F. Polymers, 14, 13, 2537, (2022) |
Magneto Twister: Magneto Deformation of the Water-Air Interface by a Superhydrophobic Magnetic Nanoparticle LayerGunatilake U.B., Morales R., Basabe-Desmonts L., Benito-Lopez F. Langmuir, 38, 11, 3360, 3369, (2022) |
Paper based microfluidic platform for single-step detection of mesenchymal stromal cells secreted VEGFAzuaje-Hualde E., de Pancorbo M.M., Benito-Lopez F., Basabe-Desmonts L. Analytica Chimica Acta, 1199, 339588, (2022) |
ALGINATE BEAD BIOSENSORS FOR THE DETERMINATION OF LACTATE LEVELS USING IMAGE ANALYSISGarcia-Rey S., Ojeda E., Gunatilake U.B., Basabe-Desmonts L., Benito-Lopez F. MicroTAS 2021 - 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences, 1547, 1548, (2021) |
Alginate bead biosystem for the determination of lactate in sweat using image analysisGarcia-Rey S., Ojeda E., Gunatilake U.B., Basabe-Desmonts L., Benito-Lopez F. Biosensors, 11, 10, 379, (2021) |
CONTINOUS MONITORING OF CELL TRANSFECTION EFFICIENCY ON MICROPATTERNED SUBSTRATESAzuaje-Hualde E., Rosique M., Calatayud-Sanchez A., Benito-Lopez F., de Pancorbo M.M., Basabe-Desmonts L. MicroTAS 2021 - 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences, 267, 268, (2021) |
Continuous monitoring of cell transfection efficiency with micropatterned substratesAzuaje-Hualde E., Rosique M., Calatayud-Sanchez A., Benito-Lopez F., M. de Pancorbo M., Basabe-Desmonts L. Biotechnology and Bioengineering, 118, 7, 2626, 2636, (2021) |
Microfluidics and materials for smart water monitoring: A reviewSaez J., Catalan-Carrio R., Owens R.M., Basabe-Desmonts L., Benito-Lopez F. Analytica Chimica Acta, 1186, 338392, (2021) |
MODULAR MICROPUMPS FABRICATED BY 3D PRINTED TECHNOLOGIESAlvarez-Braña Y., Benito-Lopez F., Basabe-Desmonts L. MicroTAS 2021 - 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences, 1267, 1268, (2021) |
Modular micropumps fabricated by 3D printed technologies for polymeric microfluidic device applicationsAlvarez-Braña Y., Etxebarria-Elezgarai J., Ruiz de Larrinaga-Vicente L., Benito-Lopez F., Basabe-Desmonts L. Sensors and Actuators, B: Chemical, 342, 129991, (2021) |
TiO2Nanotubes Alginate Hydrogel Scaffold for Rapid Sensing of Sweat Biomarkers: Lactate and GlucoseGunatilake U.B., Garcia-Rey S., Ojeda E., Basabe-Desmonts L., Benito-Lopez F. ACS Applied Materials and Interfaces, 13, 31, 37734, 37745, (2021) |
Tunable Superparamagnetic Ring (tSPRing) for Droplet ManipulationNasirimarekani V., Benito-Lopez F., Basabe-Desmonts L. Advanced Functional Materials, 31, 32, 2100178, (2021) |
A method for the controllable fabrication of optical fiber-based localized surface plasmon resonance sensorsCalatayud-Sanchez A., Ortega-Gomez A., Barroso J., Zubia J., Benito-Lopez F., Villatoro J., Basabe-Desmonts L. Scientific Reports, 12, 1, 9566, (2022) |
Ex situ and in situ Magnetic Phase Synthesised Magneto-Driven Alginate BeadsBimendra Gunatilake U., Venkatesan M., Basabe-Desmonts L., Benito-Lopez F. Journal of Colloid and Interface Science, 610, 741, 750, (2022) |
High-Resolution 3D Printing Fabrication of a Microfluidic Platform for Blood Plasma SeparationGarcia-Rey S., Nielsen J.B., Nordin G.P., Woolley A.T., Basabe-Desmonts L., Benito-Lopez F. Polymers, 14, 13, 2537, (2022) |
Magneto Twister: Magneto Deformation of the Water-Air Interface by a Superhydrophobic Magnetic Nanoparticle LayerGunatilake U.B., Morales R., Basabe-Desmonts L., Benito-Lopez F. Langmuir, 38, 11, 3360, 3369, (2022) |
Paper based microfluidic platform for single-step detection of mesenchymal stromal cells secreted VEGFAzuaje-Hualde E., de Pancorbo M.M., Benito-Lopez F., Basabe-Desmonts L. Analytica Chimica Acta, 1199, 339588, (2022) |
ALGINATE BEAD BIOSENSORS FOR THE DETERMINATION OF LACTATE LEVELS USING IMAGE ANALYSISGarcia-Rey S., Ojeda E., Gunatilake U.B., Basabe-Desmonts L., Benito-Lopez F. MicroTAS 2021 - 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences, 1547, 1548, (2021) |
Alginate bead biosystem for the determination of lactate in sweat using image analysisGarcia-Rey S., Ojeda E., Gunatilake U.B., Basabe-Desmonts L., Benito-Lopez F. Biosensors, 11, 10, 379, (2021) |
CONTINOUS MONITORING OF CELL TRANSFECTION EFFICIENCY ON MICROPATTERNED SUBSTRATESAzuaje-Hualde E., Rosique M., Calatayud-Sanchez A., Benito-Lopez F., de Pancorbo M.M., Basabe-Desmonts L. MicroTAS 2021 - 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences, 267, 268, (2021) |
Continuous monitoring of cell transfection efficiency with micropatterned substratesAzuaje-Hualde E., Rosique M., Calatayud-Sanchez A., Benito-Lopez F., M. de Pancorbo M., Basabe-Desmonts L. Biotechnology and Bioengineering, 118, 7, 2626, 2636, (2021) |
Microfluidics and materials for smart water monitoring: A reviewSaez J., Catalan-Carrio R., Owens R.M., Basabe-Desmonts L., Benito-Lopez F. Analytica Chimica Acta, 1186, 338392, (2021) |
MODULAR MICROPUMPS FABRICATED BY 3D PRINTED TECHNOLOGIESAlvarez-Braña Y., Benito-Lopez F., Basabe-Desmonts L. MicroTAS 2021 - 25th International Conference on Miniaturized Systems for Chemistry and Life Sciences, 1267, 1268, (2021) |
Modular micropumps fabricated by 3D printed technologies for polymeric microfluidic device applicationsAlvarez-Braña Y., Etxebarria-Elezgarai J., Ruiz de Larrinaga-Vicente L., Benito-Lopez F., Basabe-Desmonts L. Sensors and Actuators, B: Chemical, 342, 129991, (2021) |
TiO2Nanotubes Alginate Hydrogel Scaffold for Rapid Sensing of Sweat Biomarkers: Lactate and GlucoseGunatilake U.B., Garcia-Rey S., Ojeda E., Basabe-Desmonts L., Benito-Lopez F. ACS Applied Materials and Interfaces, 13, 31, 37734, 37745, (2021) |
Tunable Superparamagnetic Ring (tSPRing) for Droplet ManipulationNasirimarekani V., Benito-Lopez F., Basabe-Desmonts L. Advanced Functional Materials, 31, 32, 2100178, (2021) |
Prof. Koro de la Caba received a BSc in Chemistry (Macromolecules specialty) from the University of the Basque Country (UPV/EHU) in 1991 and a PhD in Science (New Materials and Processes Program) at the UPV/EHU in 1998 (Extraordinary Doctorate Award). Her current position corresponds to a Full Professor at the Chemical and Environmental Engineering Department in the School of Engineering of Gipuzkoa in Donostia-San Sebastián. Currently, she is head of BIOMAT research group at the UPV/EHU. Her research focuses on various aspects of materials, especially proteins and polysaccharides, including valorization, modification, manufacture and characterization, with the aim of contributing to the development of competitive and sustainable products and processes for food (active packaging) and biomedical applications (tissue engineering). Scopus, Google-Scholar, ResearchGate |
Magnetically responsive chitosan-pectin films incorporating Fe3O4 nanoparticles with enhanced antimicrobial activityZarandona I., Correia D.M., Moreira J., Costa C.M., Lanceros-Mendez S., Guerrero P., de la Caba K. International Journal of Biological Macromolecules, 227, 1070, 1077, (2023) |
Whey Protein Films for Sustainable Food Packaging: Effect of Incorporated Ascorbic Acid and Environmental AssessmentEtxabide A., Arregi M., Cabezudo S., Guerrero P., de la Caba K. Polymers, 15, 2, 387, (2023) |
Characteristics and seal ability of blend films based on chicken protein isolate and fish skin gelatinNilsuwan K., Arnold M., Benjakul S., Prodpran T., de la Caba K., Mohan C.O. Journal of Food Science and Technology, 59, 7, 2562, 2571, (2022) |
Developing active and intelligent films through the incorporation of grape skin and seed tannin extracts into gelatinEtxabide A., Yang Y., Maté J.I., de la Caba K., Kilmartin P.A. Food Packaging and Shelf Life, 33, 100896, (2022) |
Effect of gelatin concentration, ribose and glycerol additions on the electrospinning process and physicochemical properties of gelatin nanofibersEtxabide A., Akbarinejad A., Chan E.W.C., Guerrero P., de la Caba K., Travas-Sejdic J., Kilmartin P.A. European Polymer Journal, 180, 111597, (2022) |
Green hemostatic sponge-like scaffold composed of soy protein and chitin for the treatment of epistaxisJimenez-Martin J., Las Heras K., Etxabide A., Uranga J., de la Caba K., Guerrero P., Igartua M., Santos-Vizcaino E., Hernandez R.M. Materials Today Bio, 15, 100273, (2022) |
Hybrid 3D Printed and Electrospun Multi-Scale Hierarchical Polycaprolactone Scaffolds to Induce Bone DifferentiationGonzalez-Pujana A., Carranza T., Santos-Vizcaino E., Igartua M., Guerrero P., Hernandez R.M., de la Caba K. Pharmaceutics, 14, 12, 2843, (2022) |
Polyhydroxybutyrate (PHB) produced from red grape pomace: Effect of purification processes on structural, thermal and antioxidant propertiesEtxabide A., Kilmartin P.A., Guerrero P., de la Caba K., Hooks D., West M., Singh T. International Journal of Biological Macromolecules, 217, 449, 456, (2022) |
Sustainable Sheep Wool/Soy Protein Biocomposites for Sound AbsorptionUrdanpilleta M., Leceta I., Guerrero P., de la Caba K. Polymers, 14, 23, 5231, (2022) |
Tailoring physicochemical properties of collagen-based composites with ionic liquids and wool for advanced applicationsAndonegi M., Correia D.M., Costa C.M., Lanceros-Mendez S., Caba K.D.L., Guerrero P. Polymer, 252, 124943, (2022) |
3D printed chitosan-pectin hydrogels: From rheological characterization to scaffold development and assessmentZarandona I., Bengoechea C., Álvarez-Castillo E., de la Caba K., Guerrero A., Guerrero P. Gels, 7, 4, 175, (2021) |
3D-printed mucoadhesive collagen scaffolds as a local tetrahydrocurcumin delivery systemAndonegi M., Carranza T., Etxabide A., de la Caba K., Guerrero P. Pharmaceutics, 13, 10, 1697, (2021) |
Characterization of bio-inspired electro-conductive soy protein filmsGuerrero P., Garrido T., Garcia-Orue I., Santos-Vizcaino E., Igartua M., Hernandez R.M., de la Caba K. Polymers, 13, 3, 416, 1, 15, (2021) |
Cytocompatibility and suitability of protein-based biomaterials as potential candidates for corneal tissue engineeringRomo-valera C., Guerrero P., Arluzea J., Etxebarria J., de la Caba K., Andollo N. International Journal of Molecular Sciences, 22, 7, 3648, (2021) |
Evaluation of bioactive release kinetics from crosslinked chitosan films with Aloe veraZarandona I., Minh N.C., Trung T.S., de la Caba K., Guerrero P. International Journal of Biological Macromolecules, 182, 1331, 1338, (2021) |
Plasma-based bioinks for extrusion bioprinting of advanced dressingsDel Amo C., Perez-Valle A., Perez-Garrastachu M., Jauregui I., Andollo N., Arluzea J., Guerrero P., de la Caba K., Andia I. Biomedicines, 9, 8, 1023, (2021) |
Properties of chicken protein isolate/fish gelatin blend film incorporated with phenolic compounds and its application as pouch for packing chicken skin oilNilsuwan K., Arnold M., Benjakul S., Prodpran T., de la Caba K. Food Packaging and Shelf Life, 30, 100761, (2021) |
The versatility of collagen and chitosan: From food to biomedical applicationsIrastorza A., Zarandona I., Andonegi M., Guerrero P., de la Caba K. Food Hydrocolloids, 116, 106633, (2021) |
Dr. Pedro Guerrero is a Chemical Engineer and PhD in Renewable Materials Engineering from the University of the Basque Country. He has developed his research in industry (1995-2009) in the area of adhesives and printed circuit boards in EUREKA projects. Since 2009 he is a researcher of BIOMAT Group in the Department of Chemical and Environmental Engineering at UPV/EHU. His work is focused on the valorization of industrial by-products or biowastes to obtain raw materials, the modification of biopolymers to improve their functional properties, the optimization of processing conditions of biomaterials, and the Life Cycle Analysis (LCA) of products and processes to assess their environmental impacts. Scopus, Google-Scholar, ResearchGate |
Magnetically responsive chitosan-pectin films incorporating Fe3O4 nanoparticles with enhanced antimicrobial activityZarandona I., Correia D.M., Moreira J., Costa C.M., Lanceros-Mendez S., Guerrero P., de la Caba K. International Journal of Biological Macromolecules, 227, 1070, 1077, (2023) |
Whey Protein Films for Sustainable Food Packaging: Effect of Incorporated Ascorbic Acid and Environmental AssessmentEtxabide A., Arregi M., Cabezudo S., Guerrero P., de la Caba K. Polymers, 15, 2, 387, (2023) |
Effect of gelatin concentration, ribose and glycerol additions on the electrospinning process and physicochemical properties of gelatin nanofibersEtxabide A., Akbarinejad A., Chan E.W.C., Guerrero P., de la Caba K., Travas-Sejdic J., Kilmartin P.A. European Polymer Journal, 180, 111597, (2022) |
Hybrid 3D Printed and Electrospun Multi-Scale Hierarchical Polycaprolactone Scaffolds to Induce Bone DifferentiationGonzalez-Pujana A., Carranza T., Santos-Vizcaino E., Igartua M., Guerrero P., Hernandez R.M., de la Caba K. Pharmaceutics, 14, 12, 2843, (2022) |
Polyhydroxybutyrate (PHB) produced from red grape pomace: Effect of purification processes on structural, thermal and antioxidant propertiesEtxabide A., Kilmartin P.A., Guerrero P., de la Caba K., Hooks D., West M., Singh T. International Journal of Biological Macromolecules, 217, 449, 456, (2022) |
Sustainable Sheep Wool/Soy Protein Biocomposites for Sound AbsorptionUrdanpilleta M., Leceta I., Guerrero P., de la Caba K. Polymers, 14, 23, 5231, (2022) |
Tailoring physicochemical properties of collagen-based composites with ionic liquids and wool for advanced applicationsAndonegi M., Correia D.M., Costa C.M., Lanceros-Mendez S., Caba K.D.L., Guerrero P. Polymer, 252, 124943, (2022) |
3D printed chitosan-pectin hydrogels: From rheological characterization to scaffold development and assessmentZarandona I., Bengoechea C., Álvarez-Castillo E., de la Caba K., Guerrero A., Guerrero P. Gels, 7, 4, 175, (2021) |
3D-printed mucoadhesive collagen scaffolds as a local tetrahydrocurcumin delivery systemAndonegi M., Carranza T., Etxabide A., de la Caba K., Guerrero P. Pharmaceutics, 13, 10, 1697, (2021) |
Characterization of bio-inspired electro-conductive soy protein filmsGuerrero P., Garrido T., Garcia-Orue I., Santos-Vizcaino E., Igartua M., Hernandez R.M., de la Caba K. Polymers, 13, 3, 416, 1, 15, (2021) |
Cytocompatibility and suitability of protein-based biomaterials as potential candidates for corneal tissue engineeringRomo-valera C., Guerrero P., Arluzea J., Etxebarria J., de la Caba K., Andollo N. International Journal of Molecular Sciences, 22, 7, 3648, (2021) |
Evaluation of bioactive release kinetics from crosslinked chitosan films with Aloe veraZarandona I., Minh N.C., Trung T.S., de la Caba K., Guerrero P. International Journal of Biological Macromolecules, 182, 1331, 1338, (2021) |
Plasma-based bioinks for extrusion bioprinting of advanced dressingsDel Amo C., Perez-Valle A., Perez-Garrastachu M., Jauregui I., Andollo N., Arluzea J., Guerrero P., de la Caba K., Andia I. Biomedicines, 9, 8, 1023, (2021) |
The versatility of collagen and chitosan: From food to biomedical applicationsIrastorza A., Zarandona I., Andonegi M., Guerrero P., de la Caba K. Food Hydrocolloids, 116, 106633, (2021) |
From an antiferromagnetic insulator to a strongly correlated metal in square-lattice MCl2(pyrazine)2 coordination solidsPerlepe P., Oyarzabal I., Voigt L., Kubus M., Woodruff D.N., Reyes-Lillo S.E., Aubrey M.L., Négrier P., Rouzières M., Wilhelm F., Rogalev A., Neaton J.B., Long J.R., Mathonière C., Vignolle B., Pedersen K.S., Clérac R. Nature Communications, 13, 1, 5766, (2022) |
Magneto-thermal properties and slow magnetic relaxation in Mn(ii)Ln(iii) complexes: influence of magnetic coupling on the magneto-caloric effectOyarzabal I., Zabala-Lekuona A., Mota A.J., Palacios M.A., Rodríguez-Diéguez A., Lorusso G., Evangelisti M., Rodríguez-Esteban C., Brechin E.K., Seco J.M., Colacio E. Dalton Transactions, 51, 34, 12954, 12967, (2022) |
Slow Magnetic Relaxation and Luminescent Properties of Mononuclear Lanthanide-Substituted Keggin-Type Polyoxotungstates with Compartmental Organic LigandsRuiz-Bilbao E., Pardo-Almanza M., Oyarzabal I., Artetxe B., Felices L.S., García J.A., Seco J.M., Colacio E., Lezama L., Gutiérrez-Zorrilla J.M. Inorganic Chemistry, 61, 5, 2428, 2443, (2022) |
The Role of Critical Raw Materials for Novel Strategies in Sustainable Secondary BatteriesSalado M., Lizundia E., Oyarzabal I., Salazar D. Physica Status Solidi (A) Applications and Materials Science, 219, 15, 2100710, (2022) |
Exploring the slow magnetic relaxation of a family of photoluminescent 3d lanthanide–organic frameworks based on dicarboxylate ligandsOyarzabal I., Rojas S., Parejo A.D., Salinas‐castillo A., García J.Á., Seco J.M., Cepeda J., Rodríguez‐diéguez A. Magnetochemistry, 7, 3, 41, (2021) |
Room-Temperature Magnetic Bistability in a Salt of Organic Radical IonsTaponen A.I., Ayadi A., Lahtinen M.K., Oyarzabal I., Bonhommeau S., Rouzières M., Mathonière C., Tuononen H.M., Clérac R., Mailman A. Journal of the American Chemical Society, 143, 39, 15912, 15917, (2021) |
Orysia Zaremba received her B.Sc. in Chemistry in 2017 from Taras Shevchenko National University of Kyiv, Ukraine and M.Sc. in Materials Science in 2019 from Skolkovo Institute of Science and Technology, Russia. She also worked as an assistant researcher in Nagoya University, Japan. In BCMaterials, she will work as a pre-doctoral researcher in the area of metal organic compounds synthesis under supervision of Prof. Stefan Wuttke. So far, she has published 5 papers in peer-reviewed international journals in the field of nanomaterials and materials science.
MOF Synthesis Prediction Enabled by Automatic Data Mining and Machine Learning**Luo Y., Bag S., Zaremba O., Cierpka A., Andreo J., Wuttke S., Friederich P., Tsotsalas M. Angewandte Chemie - International Edition, 61, 19, e202200242, (2022) |
Reticular Nanoscience: Bottom-Up Assembly NanotechnologyAndreo J., Ettlinger R., Zaremba O., Peña Q., Lächelt U., De Luis R.F., Freund R., Canossa S., Ploetz E., Zhu W., Diercks C.S., Gröger H., Wuttke S. Journal of the American Chemical Society, 144, 17, 7531, 7550, (2022) |
25 Years of Reticular ChemistryFreund R., Canossa S., Cohen S.M., Yan W., Deng H., Guillerm V., Eddaoudi M., Madden D.G., Fairen-Jimenez D., Lyu H., Macreadie L.K., Ji Z., Zhang Y., Wang B., Haase F., Wöll C., Zaremba O., Andreo J., Wuttke S., Diercks C.S. Angewandte Chemie - International Edition, 60, 45, 23946, 23974, (2021) |
Artificial Bioaugmentation of Biomacromolecules and Living Organisms for Biomedical ApplicationsCao J., Zaremba O.T., Lei Q., Ploetz E., Wuttke S., Zhu W. ACS Nano, 15, 3, 3900, 3926, (2021) |
The Current Status of MOF and COF ApplicationsFreund R., Zaremba O., Arnauts G., Ameloot R., Skorupskii G., Dincă M., Bavykina A., Gascon J., Ejsmont A., Goscianska J., Kalmutzki M., Lächelt U., Ploetz E., Diercks C.S., Wuttke S. Angewandte Chemie - International Edition, 60, 45, 23975, 24001, (2021) |
Long- and short-range magnetic interactions in nanocrystalline lightly Cr‑doped manganitesKhammassi F., Chérif W., Mendoza A., Salazar-Jaramillo D., Lanceros-Méndez S., Dammak M. Applied Physics A: Materials Science and Processing, 128, 8, 718, (2022) |
Lightweight, multifunctional materials based on magnetic shape memory alloysSalazar-Jaramillo D., Barandiaran J.M., Kohl M., Cong D., Hosoda H., Llamazares J.L.S., Chernenko V.A. Advanced Lightweight Multifunctional Materials, 187, 237, (2020) |
Magnetocaloric Effect in Specially Designed MaterialsSalazar-Jaramillo D., Álvarez-Alonso P., Lázpita P., Sánchez Llamazares J.L., Gorría P., Blanco J.A., Chernenko V.A. Magnetic Nanostructured Materials: From Lab to Fab, 199, 244, (2018) |
High coercivity in rare-earth lean nanocomposite magnets by grain boundary infiltrationMadugundo R., Salazar-Jaramillo D., Manuel Barandiaran J., Hadjipanayis G.C. Journal of Magnetism and Magnetic Materials, 400, 300, 303, (2016) |
IT specialist; systems & network administration and security; purchasing of equipment & supplies; software licensing; technical support.
Currently I’m in charge of the whole IT and Facilities areas of the organization, including systems and network administration, security systems, purchasing of equipment & supplies, and also being contact with related vendors. One of my main goals is to maintain all services and infrastructures in perfect condition, thus allowing other people in BCMaterials can fulfill their tasks, facilitating their mobility and easing their workaday.
Material characterization using XRD methods: single crystal XRD (lab diffractometer, synchrotron), PXRD; coordination and supramolecular chemistry: chemistry and crystallography of tetrapyrroles, MOFs, HOFs, single-molecule magnets, photoactive materials, intermolecular interaction; MOFs and HOFs analysis in ToposPro, Zeo++; Synthesis and characterization of MOFs, tetrapyrrole compounds.
Anna Sinelshchikova obtained her bachelor degree in Material Science and master degree in Chemistry at the Lomonosov Moscow State University. During her studies she had three internships in Australia. Afterwards she completed her PhD at the Frumkin Institute of Physical Chemistry and Electrochemistry of Russian Academy of Sciences (IPCE RAS) under supervision of Prof. Yu. Gorbunova. Her thesis was devoted to design and synthesis of tetrapyrrole compounds for functional materials. Furthermore, she did two internships at the Institute of Molecular Chemistry of the University of Burgundy (ICMUB), Dijon, France, where she worked on synthesis of phosphorylated porphyrins. She then worked as senior researcher at IPCE RAS in the area of coordination and supramolecular chemistry, tetrapyrrole compounds and material characterization. She focused on applications of X-ray diffraction methods including single crystal analysis to investigate such areas as porphyrin-based MOFs, non-covalent interactions, single molecule magnets based on phthalocyanine complexes and photoactive hybrid assemblies. As a result, her research has gained recognition in the form of the Struchkov Prize for the best research work based on the application of the X-ray diffraction methods.
Nowadays, Anna is a PostDoc in Stefan´s Wuttke group developing the surface functionalization of MOFs nanoparticles and their binding into superlattices, and one-pot synthesis of MOFs.
Her scientific interests lie in the area of reticular chemistry, coordination chemistry, self-assembling, X-ray crystallography, functional properties of materials based on molecular-scale interactions.
Kaiyuan Chen received his M.S. degree of Materials Science and Engineering at Guilin University of Technology in 2020. His research focused on the local structure and dipole-glass-like relaxor behavior of the functional ceramics.
Kaiyuan is currently pursuing his Ph.D. under the supervision of Prof. Qi Zhang and Prof. Senentxu Lanceros-Méndez, focusing on Designing, Recovery and Re-manufacturing of Electroceramic Components. Moreover, he is interested in the relation of local structure and physical property in oxide materials.
Daniel Doménech graduated in Physics in 2020 at the University of València (UV). He first became involved in Particle Physics, with his bachelor thesis regarding particle track reconstruction with machine learning techniques at LHCb. In 2021 he finished his master's degree in Advanced Physics at UV with a specialization in Theoretical Physics.
During his period in València he has collaborated in large experiments associated with CERN, such as LHCb, AMS-02 and RD50. He also enjoyed a research stay in Quantum Optics at the Johannes Guttenberg University (JGU) of Mainz, Germany, performing optical super-resolution microscopy of single trapped ions.
However, his interest changed during his master thesis, focused on the static characterization of monolithic radiation-hard active pixel sensors -the new generation of silicon particle detectors-. There he discovered the important role of Materials Science in the development of new technologies. His work received the Xavier Gómez i Font award for the best master's thesis written in English at UV.
He is now pursuing a PhD at BCMaterials and the University of the Basque Country (UPV/EHU) on the control of current induced magnetic domain wall motion in nanostructures and thin films under the supervision of Prof. Rafael Morales and Dr. José Maria Porro. His research focuses on the characterization of magnetotransport processes and the fabrication of nanopatterned magnetic thin films for spintronics applications.
Juan Pablo Esquivel is currently an Ikerbasque Research Associate at BCMaterials. He holds a BSc in Mechatronics Engineering (2005) from Tecnológico de Monterrey (Mexico), MSc in Micro and Nanoelectronics Engineering (2008) and a PhD in Electronics Engineering (2010) from the Universitat Autònoma de Barcelona (UAB). He has performed research stays at the Helmholtz Zentrum Berlin, Germany, and was a Senior Fellow at the Bioengineering Department of the University of Washington, USA, under a Marie Curie Fellowship. In 2016, he obtained a Tenured Scientist position at the Instituto de Microelectrónica de Barcelona, IMB-CNM (CSIC). He is also co-founder and Scientific Advisor of the spin-off companies Fuelium and Sweanty.
His work is focused on the development of sustainable power sources, such as fuel cells and batteries, and their integration in autonomous portable devices. His multidisciplinary research combines materials science and engineering, electrochemistry, paper microfluidics and printed electronics technologies with sustainability principles and a product oriented approach.
Immuno-battery: A single use self-powered immunosensor for REASSURED diagnosticsGalyamin D., Liébana S., Esquivel J.P., Sabaté N. Biosensors and Bioelectronics, 220, 114868, (2023) |
A plant-like battery: a biodegradable power source ecodesigned for precision agricultureNavarro-Segarra M., Tortosa C., Ruiz-Díez C., Desmaële D., Gea T., Barrena R., Sabaté N., Esquivel J.P. Energy and Environmental Science, 15, 7, 2900, 2915, (2022) |
Microfluidics for Electrochemical Energy ConversionIbrahim O.A., Navarro-Segarra M., Sadeghi P., Sabaté N., Esquivel J.P., Kjeang E. Chemical Reviews, 122, 7, 7236, 7266, (2022) |
In 2021, Bruna F. Gonçalves received her Ph.D. in Materials Engineering from University of Minho, Portugal, in a collaboration with the International Iberian Nanotechnology Laboratory, where she worked on the development of printable Cu(In,Ga)Se2 (CIGS) photovoltaic systems, with special focus on the synthesis of CIGS crystals and their implementation as screen printable inks for the production of solution-based photovoltaic devices.
In 2022 she joined BC Materials as a post-doctoral researcher, under IKUR neutronics program, where she works on the development of active and smart materials based on polymer nanocomposites. Stimuli responsive metal-organic frameworks are also being synthesized for advanced nanocomposite development.
ORCID: https://orcid.org/0000-0003-0633-9251
Merging solution processing and printing for sustainable fabrication of Cu(In,Ga)Se2 photovoltaicsGonçalves B.F., Sadewasser S., Salonen L.M., Lanceros-Méndez S., Kolen'ko Y.V. Chemical Engineering Journal, 442, 136188, (2022) |
Eco-friendly and cost-efficient inks for screen-printed fabrication of copper indium gallium diselenide photoabsorber thin filmsGonçalves B.F., Botelho G., Lanceros-Méndez S., Kolen'ko Y.V. Journal of Colloid and Interface Science, 598, 388, 397, (2021) |
Large-scale aqueous synthesis of Cu(In,Ga)Se2nanoparticles for photocatalytic degradation of ciprofloxacinGonçalves B.F., Martins P.M., Lagrow A.P., Botelho G., Salonen L.M., Lanceros-Méndez S., Kolen'Ko Y.V. Dalton Transactions, 50, 45, 16819, 16828, (2021) |
Large-scale synthesis of semiconducting cu(In,ga)se2 nanoparticles for screen printing applicationGonçalves B.F., Lagrow A.P., Pyrlin S., Owens-Baird B., Botelho G., Marques L.S.A., Ramos M.M.D., Kovnir K., Lanceros-Mendez S., Kolen’ko Y.V. Nanomaterials, 11, 5, 1148, (2021) |
Polycarbonate based multifunctional self-sensing 2D and 3D printed structures for aeronautic applicationsCosta P., Dios J.R., Cardoso J., Campo J.J., Tubio C.R., Gon alves B.F., Castro N., Lanceros-Méndez S. Smart Materials and Structures, 30, 8, 085032, (2021) |
Recent developments on printed photodetectors for large area and flexible applicationsOliveira J., Brito-Pereira R., Gonçalves B.F., Etxebarria I., Lanceros-Mendez S. Organic Electronics, 66, 216, 226, (2019) |
Development of water-based printable piezoresistive sensors for large strain applicationsGonçalves B.F., Oliveira J., Costa P., Correia V., Martins P., Botelho G., Lanceros-Mendez S. Composites Part B: Engineering, 112, 344, 352, (2017) |
Green solvent approach for printable large deformation thermoplastic elastomer based piezoresistive sensors and their suitability for biomedical applicationsGonçalves B.F., Costa P., Oliveira J., Ribeiro S., Correia V., Botelho G., Lanceros-Mendez S. Journal of Polymer Science, Part B: Polymer Physics, 54, 20, 2092, 2103, (2016) |
Ivan Infante studied Chemistry at the Universitá della Basilicata in Italy. He then moved to the Vrije Universiteit in Amsterdam (The Netherlands) where he earned his Ph.D. (2006) in Theoretical Chemistry under the supervision of Lucas Visscher and Evert Jan Baerends, with a thesis aimed at the spectroscopic characterization of actinide molecules using highly precise ab initio computational methodologies. After a two-year postdoc experience in Laura Gagliardi's group at the University of Geneva, Switzerland, he was bestowed a Juan de la Cierva grant and moved to the University of the Basque Country (UPV/EHU) in the Theoretical Chemistry group led by Jesus Ugalde, where he could pursue his independent research career. In May 2014, he was awarded a prestigious Vidi grant (800.000 euros) from The Netherlands Organization for scientific research (NWO) that enabled him to establish his own research group as an Assistant Professor at the Vrije Universiteit in Amsterdam (The Netherlands). In 2018, Ivan moved to the Italian Institute of Technology as a Researcher to work with Liberato Manna, head of the Nanomaterials division. Finally, in 2022 he was awarded an Ikerbasque Professor position at the Basque Center of Materials. His current research objectives aim at
elucidating surface processes of colloidal semiconductor quantum dots by combining theoretical models with experiments.
Light Emission from Low-Dimensional Pb-Free Perovskite-Related Metal Halide NanocrystalsRay A., De Trizio L., Zito J., Infante I., Manna L., Abdelhady A.L. Advanced Optical Materials (In Press) |
Mixed Valence of Bismuth in Hexagonal Chalcohalide NanocrystalsQuarta D., Toso S., Saleh G., Caliandro R., Moliterni A., Griesi A., Divitini G., Infante I., Gigli G., Giannini C., Manna L., Giansante C. Chemistry of Materials (In Press) |
CAT: A Compound Attachment Tool for the Construction of Composite Chemical CompoundsVan Beek B., Zito J., Visscher L., Infante I. Journal of Chemical Information and Modeling, 62, 22, 5525, 5535, (2022) |
Classical Force-Field Parameters for CsPbBr3Perovskite NanocrystalsPascazio R., Zaccaria F., Van Beek B., Infante I. Journal of Physical Chemistry C, 126, 23, 9898, 9908, (2022) |
Living Cell Nanoporation and Exosomal RNA Analysis Platform for Real-Time Assessment of Cellular TherapiesSheng Y., Huang Z., Zhang T., Qian F., Zhu Y., Dong Z., Zhang Q., Lei Q., Kong F., Wang Y., Walden M., Wuttke S., Chang L., Zhu W., Hu J. Journal of the American Chemical Society, 144, 21, 9443, 9450, (2022) |
Paula Rodríguez Lejarraga graduated in Chemistry in 2020 at the University of Salamanca (USAL). Her degree thesis was on "Theoretical study of inelastic collisions of He with OH+ in triplet and singlet state" at the physical-chemistry group of the Faculty of Science.
Subsequently, she studies a Master´s Degree in New Materials in 2021 at the University of Basque Country (UPV/EHU) and the University of Cantabria (UC). She development her final master work at BCMaterials with the title of "Capacitive gas sensors based on porous metal-organic frameworks and ionic liquids composites".
Currently, she is developing her PhD in BCMaterials in the field of new materials generation for tissue regeneration.
Dr. Navarro-Segarra has produced outstanding achievements in the field of electrochemistry, materials engineering, microfluidics and sustainable power sources. Up to now, the results of her research have been reported in high-impact scientific journals, and her work has been awarded and recognized by international institutions with awards such as the Graduate Student Awards of the European Materials Research Society and the Post-Lithium Storage Cluster of Excellence award to early career researchers. Furthermore, she has performed noteworthy supervising duties of undergraduate and master students and has proven her ability to establish collaborative partnerships through two international research stays at the Tecnológico de Monterrey (Mexico) and the ITAS-KIT institute in Karlsruhe (Germany)
Marina Navarro-Segarra is currently a postdoctoral researcher at BCMaterials. She holds a B.S Degree in Physics from the Autonomous University of Barcelona (2017). Her research career started as a research assistant at the Microelectronics Institute of Barcelona while she was studying a M.Sc. in electrochemistry at the University of Barcelona (2018). She obtained her PhD in electrochemistry (UB) in July 2022, under the supervision of Dr Juan Pablo Esquivel Bojórquez and Dr Neus Sabaté. In her dissertation, entitle ‘Primary batteries redefinition within the environmental planetary boundaries’, she envisioned a rationale to develop sustainable portable batteries based on the doughnuts economics model and materialized three portable battery concepts with disruptive end-of-life.
Marina Navarro-Segarra's research at BCMaterials seeks the reconceptualization of portable power sources under an environmentally conscious framework. She uses eco-design, electrochemistry and engineering as tools to reformulate the decision-making drivers of her investigation, exploring the edges of disruptive battery concepts to create sustainable and feasible technological solutions that can evolve within the environmental boundaries of the planet. As a multidisciplinary electrochemistry, but also a nature lover and a climate activist her main research interests are:
Biodegradable batteries| Ecodesign| Bio-based Materials| Doughnuts Economy| Paper fuel cells| Life Cycle Thinking
I'm a Higher Technician in Clinical and biomedical laboratory and Analysis and quality control laboratory. I have experience as a laboratory technician in biology labs like CICBiogune for three months for my practices of the course and two years of work at Instituto Biofisika. My work in the two of them was about protein purification although i have a cell culture course and a little work experience in that area. I am also experience in chemistry labs in the industry, i was working for almost a year at MetalloSpain a foundry where i analysed diferent types of materials.
https://orcid.org/my-orcid?orcid=0000-0003-2137-9737
Jordi has experience in performing theoretical simulations through continuum models such as the k·p perturbational method. Also, he has experience in quantum physical methods for interacting systems, such as the variational and configuration interaction methods.
Regarding programming software skills, he is experimented in Python, Mathematica, MATLAB, COMSOL Multiphysics and Linux.
Jordi Llusar graduated in Chemistry (2017) from the University Jaume I (UJI) in Castelló (Spain), focusing his interest mainly on quantum chemistry. His BSc thesis was based on a theoretical study which envisions how chemistry would be if we lived in a 2-dimensional world.
Later, in 2018, he obtained his Master's degree in Advanced Physics at the University of València (UV), namely, in the branch of Theoretical Physics. During his master's degree, he carried out a research stay in the Institute of Corpuscular Physics (IFIC), where he worked under the supervision of Dr. Anselmo Cervera on calibrating temperature sensors for the giant thermometer (protoDUNE) installed at CERN to detect the different behaviour between neutrinos and antineutrinos, which is key to understanding the matter-antimatter asymmetry.
Afterwards, he became PhD from UJI in June 2022, where he specialized in Theoretical Physical Chemistry, specifically, in the field of homo- and heterostructured colloidal quantum wells, also known as nanoplatelets, based on Cd-chalcogenides. Under the supervision of Dr. Juan Ignacio Climente, he wrote his dissertation entitled 'Elastic, Electrostatic and Magnetic Properties of Colloidal Quantum Wells'. Additionally, he dealt with not only colloidal nanoplatelets but also quantum dots.
In September 2022, he joined BCMaterials as a Post-Doctoral Researcher, where he works along with Dr. Ivan Infante on elucidating surface processes of colloidal semiconductor quantum dots by combining theoretical models with experiments.
He is currently working on functionalities of a wide gamut of NCs at atomic level using the CP2K software and visualization tools such as AMS, VESTA or Molden.
Dr. Mingcai Zhao received his M.Sc. in Materials Processing Science in 2017 and Ph.D. in Micro-nano Manufacturing in 2021, both from Nanjing University of Aeronautics and Astronautics. His main research objects are preparing silicon nanoparticles with nano-sized crystals embedded in highly amorphous matrix and applying them as anode materials in Li-ion batteries. He is currently working at the BCMaterial with Prof. Qi Zhang, focusing on the development of next generation Li-ion batteries, specifically the design of solid-state electrolyte and nano-Si based anode for all-solid-state Li-ion batteries.
Formation and quantitative analysis of internal structure of Si nanoparticles developed via bead-millingZhao M., Zhang J., Wang W., Zhang Q. AIP Advances, 11, 7, 075101, (2021) |
High effective preparation of amorphous-like si nanoparticles using spark erosion followed by bead millingZhao M., Zhang J., Wang W., Zhang Q. Nanomaterials, 11, 3, 594, 1, 15, (2021) |
The preparation of mass producible, highly-cycling stable Si/C anode materials with nano-sized silicon crystals embedded in highly amorphous silicon matrixZhao M., Zhang J., Wang W., Zhang Q. Nanotechnology, 32, 48, 485404, (2021) |
Materials science, Porous materials, Hydrothermal synthesis, Metal-organic frameworks, Nanoparticles, Adsorption, Pollutants removal, Green chemistry
Dr. Subhajit Dutta obtained his B.Sc. (Chemistry) from University of Calcutta, India in 2014 and received M.Sc. degree from University of Calcutta, India in 2016. Thereafter, he joined the Indian Institute of Science Education and Research (IISER), Pune, India in 2016 as a PhD student under the supervision of Prof. Sujit K. Ghosh and received his Ph.D. in 2022. He is currently working at the BCMaterials, Spain with Prof. Stefan Wuttke under Human Frontiers Science Program (HFSP), focusing on the synthesis and characterization of functional MOFs and hierarchical porous materials for environmental applications.
Subhajit´s current research interests embrace the development of next-generation functional porous materials that foster environmental sustainability.
ORCID: 0000-0003-1440-7808
PEDOT:PSS-based screen-printable inks for H2O2 electrochemical detectionCampos-Arias L., del Olmo R., Peřinka N., Casado N., Vilas-Vilela J.L., Mecerreyes D., del Campo F.J., Lanceros-Méndez S. Electrochimica Acta, 439, 141615, (2023) |
Multifunctional Ternary Composites with Silver Nanowires and Titanium Dioxide Nanoparticles for Capacitive Sensing and Photocatalytic Self-Cleaning ApplicationsTubio C.R., Pereira N., Campos-Arias L., Martins P.M., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. ACS Applied Electronic Materials, 4, 8, 3815, 3824, (2022) |
Solid Polymer Electrolytes Based on Gellan Gum and Ionic Liquid for Sustainable Electrochromic DevicesAlves R., Fidalgo-Marijuan A., Campos-Arias L., Gonçalves R., Silva M.M., Del Campo F.J., Costa C.M., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 14, 13, 15494, 15503, (2022) |
Laser-induced highly oriented pyrolytic graphite for high-performance screen-printed electrodesAlba A.F., Totoricaguena-Gorrino J., Campos-Arias L., Peřinka N., Ruiz-Rubio L., Vilas-Vilela J.L., Lanceros-Méndez S., Del Campo F.J. Materials Advances, 2, 18, 5912, 5921, (2021) |
Pello Nuñez received his bachelor degree in chemistry from the University of Basque Country (UPV/EHU) in 2018. Later, he obtained his master´s degree in New Materials in 2019 from the UPV/EHU and the University of Cantabria (UC), both thesis were about Metal-Organic Gel (MOG) and Metal-Organic Aerogel (MOA) synthesis and characterization.
In 2019, he obtained a Global training to work at VITO an independent Flemish research organization in the area of cleantech and sustainable development. His main work consisted in the used of Fuel cells to make alcohol electrolysis to obtain H2.
In 2021, he decided to join BCMaterials to start his PhD in the field of micro- and nanofabrication under the direction of Javier Del Campo
She has worked in a pharmaceutical company for almost 5 years as an Organic Chemist technician preparing collections of novel organic molecules trough execution of organic multi-step and parallel synthesis reactions at laboratory scale. María handles the synthesis of this molecules in high purity and manages their structural characterization trough high field NMR, mass spectrometry and chromatography. She has broad experience in various synthesis techniques, analysis, identification and coding in the pharmaceutical industry.
María earned her Chemistry degree at Universidad Autónoma de Madrid (Spain) in 2017 and finished a Master Degree in Fine and Molecular Chemistry at Universidad de Murcia (Spain) in 2018. Along her study years she has participated in different reasearch groups:
Now, María will work with Viktor Petrenko and Roberto Fernández de Luis in metal-organic frameworks (MOFs) development as a Predoctoral Researcher. Researching in the framework of the NUETRONMOF project for creating advanced polymers composites based on Metal-Organic Frameworks for batteries and environmental applications.
Humidity Sensors Based on Magnetic Ionic Liquids Blended in Poly(vinylidene fluoride- co-hexafluoropropylene)Serra J.P., Fernandes L.C., Pereira N., Fidalgo-Marijuan A., Porro J.M., Costa C.M., Correia D.M., Lanceros-Mendez S. ACS Applied Polymer Materials (In Press) |
Comparative performance and ecotoxicity assessment of Y2(CO3)3, ZnO/TiO2, and Fe3O4 nanoparticles for arsenic removal from waterSalazar H., Martins P.M., Batista D., Shejale K.P., Sharma R.K., Krishnapriya R., Ferdov S., Botelho G., Fidalgo-Marijuan A., Cássio F., Lanceros-Mendez S. Environmental Science: Water Research and Technology, 8, 8, 1719, 1730, (2022) |
Designing Metal-Chelator-like Traps by Encoding Amino Acids in Zirconium-Based Metal-Organic FrameworksValverde A., Tovar G.I., Rio-López N.A., Torres D., Rosales M., Wuttke S., Fidalgo-Marijuan A., Porro J.M., Jiménez-Ruiz M., García Sakai V., García A., Laza J.M., Vilas-Vilela J.L., Lezama L., Arriortua M.I., Copello G.J., Fernández De Luis R. Chemistry of Materials, 34, 21, 9666, 9684, (2022) |
Exploring ionic liquid-laden metal-organic framework composite materials as hybrid electrolytes in metal (ion) batteriesUrgoiti-Rodriguez M., Vaquero-Vílchez S., Mirandona-Olaeta A., Fernández de Luis R., Goikolea E., Costa C.M., Lanceros-Mendez S., Fidalgo-Marijuan A., Ruiz de Larramendi I. Frontiers in Chemistry, 10, 995063, (2022) |
Lithium-Ion Battery Solid Electrolytes Based on Poly(vinylidene Fluoride)-Metal Thiocyanate Ionic Liquid BlendsSerra J.P., Fidalgo-Marijuan A., Barbosa J.C., Correia D.M., Gonçalves R., Porro J.M., Lanceros-Mendez S., Costa C.M. ACS Applied Polymer Materials, 4, 8, 5909, 5919, (2022) |
Metal organic framework modified poly(vinylidene fluoride-co-hexafluoropropylene) separator membranes to improve lithium-ion battery capacity fadingBarbosa J.C., Gonçalves R., Valverde A., Martins P.M., Petrenko V.I., Márton M., Fidalgo-Marijuan A., Fernández de Luis R., Costa C.M., Lanceros-Méndez S. Chemical Engineering Journal, 443, 136329, (2022) |
Poly(vinylidene fluoride-co-hexafluoropropylene) based tri-composites with zeolite and ionic liquid for electromechanical actuator and lithium-ion battery applicationsBarbosa J.C., Pinto R.S., Correia D.M., Fidalgo-Marijuan A., Gonçalves R., Ferdov S., Lanceros-Mendez S., Costa C.M. Electrochimica Acta, 431, 141186, (2022) |
Silk fibroin and sericin polymer blends for sustainable battery separatorsReizabal A., Fidalgo-Marijuan A., Gonçalves R., Gutiérrez-Pardo A., Aguesse F., Pérez-Álvarez L., Vilas-Vilela J.L., Costa C.M., Lanceros-Mendez S. Journal of Colloid and Interface Science, 611, 366, 376, (2022) |
Solid Polymer Electrolytes Based on Gellan Gum and Ionic Liquid for Sustainable Electrochromic DevicesAlves R., Fidalgo-Marijuan A., Campos-Arias L., Gonçalves R., Silva M.M., Del Campo F.J., Costa C.M., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 14, 13, 15494, 15503, (2022) |
Sustainable Lithium-Ion Battery Separator Membranes Based on Carrageenan BiopolymerSerra J.P., Fidalgo-Marijuan A., Teixeira J., Hilliou L., Gonçalves R., Urtiaga K., Gutiérrez-Pardo A., Aguesse F., Lanceros-Mendez S., Costa C.M. Advanced Sustainable Systems, 6, 12, 2200279, (2022) |
Sustainable Lithium-Ion Battery Separators Based on Poly(3-Hydroxybutyrate-Co-Hydroxyvalerate) Pristine and Composite Electrospun MembranesBarbosa J.C., Correia D.M., Fidalgo-Marijuan A., Gonçalves R., Fernandes M., de Zea Bermudez V., Silva M.M., Lanceros-Mendez S., Costa C.M. Energy Technology, 10, 2, 2100761, (2022) |
Template-free hydrothermal synthesis of lithium iron tavorite with complex morphologies driven by phase transformationFerdov S., Gonçalves R., Fidalgo-Marijuan A., Costa C.M., Lanceros-Mendez S. Nano-Structures and Nano-Objects, 30, 100870, (2022) |
Chitin/Metal-Organic Framework Composites as Wide-Range AdsorbentTovar Jimenez G.I., Valverde A., Mendes-Felipe C., Wuttke S., Fidalgo-Marijuan A., Larrea E.S., Lezama L., Zheng F., Reguera J., Lanceros-Méndez S., Arriortua M.I., Copello G., de Luis R.F. ChemSusChem, 14, 14, 2892, 2901, (2021) |
Crystal morphology control of synthetic giniite for enhanced photo-Fenton activity against the emerging pollutant metronidazoleMartins P.M., Salazar H., Aoudjit L., Gonçalves R., Zioui D., Fidalgo-Marijuan A., Costa C.M., Ferdov S., Lanceros-Mendez S. Chemosphere, 262, 128300, (2021) |
High-Performance Room Temperature Lithium-Ion Battery Solid Polymer Electrolytes Based on Poly(vinylidene fluoride- co-hexafluoropropylene) Combining Ionic Liquid and ZeoliteBarbosa J.C., Correia D.M., Fernández E.M., Fidalgo-Marijuan A., Barandika G., Gonçalves R., Ferdov S., De Zea Bermudez V., Costa C.M., Lanceros-Mendez S. ACS Applied Materials and Interfaces, 13, 41, 48889, 48900, (2021) |
Metal-organic frameworks and zeolite materials as active fillers for lithium-ion battery solid polymer electrolytesBarbosa J.C., Gonçalves R., Costa C.M., De Zea Bermudez V., Fidalgo-Marijuan A., Zhang Q., Lanceros-Méndez S. Materials Advances, 2, 12, 3790, 3805, (2021) |
Modulation of the bifunctional CrVI to CrIII photoreduction and adsorption capacity in ZrIV and TiIV benchmark metal-organic frameworksSaiz P.G., Valverde A., Gonzalez-Navarrete B., Rosales M., Quintero Y.M., Fidalgo-Marijuan A., Orive J., Reizabal A., Larrea E.S., Arriortua M.I., Lanceros-Méndez S., García A., de Luis R.F. Catalysts, 11, 1, 51, 1, 14, (2021) |
Multifunctionality of weak ferromagnetic porphyrin-based MOFs: selective adsorption in the liquid and gas phaseAmayuelas E., Iacomi P., Fidalgo-Marijuan A., Bazán B., Urtiaga M.K., Barandika G., Lezama L., Llewellyn P.L., Arriortua M.I. CrystEngComm, 23, 23, 4205, 4213, (2021) |
Chromium Speciation in Zirconium-Based Metal–Organic Frameworks for Environmental RemediationSaiz P.G., Iglesias N., González Navarrete B., Rosales M., Quintero Y.M., Reizabal A., Orive J., Fidalgo Marijuan A., Larrea E.S., Lopes A.C., Lezama L., García A., Lanceros-Mendez S., Arriortua M.I., Fernández de Luis R. Chemistry - A European Journal, 26, 61, 13861, 13872, (2020) |
Encapsulation of β-alanine model amino-acid in zirconium(IV) metal organic frameworks: Defect engineering to improve host guest interactionsMuguruza A.R., de Luis R.F., Iglesias N., Bazán B., Urtiaga M.-K., Larrea E.S., Fidalgo-Marijuan A., Barandika G. Journal of Inorganic Biochemistry, 205, 110977, (2020) |
Lithium-ion battery separator membranes based on poly(L-lactic acid) biopolymerBarbosa J.C., Reizabal A., Correia D.M., Fidalgo-Marijuan A., Gonçalves R., Silva M.M., Lanceros-Mendez S., Costa C.M. Materials Today Energy, 18, 100494, (2020) |
Metal-Organic Framework Based PVDF Separators for High Rate Cycling Lithium-Ion BatteriesValverde A., Gonçalves R., Silva M.M., Wuttke S., Fidalgo-Marijuan A., Costa C.M., Vilas-Vilela J.L., Laza J.M., Arriortua M.I., Lanceros-Méndez S., Fernández De Luis R. ACS Applied Energy Materials, 3, 12, 11907, 11919, (2020) |
Study of the versatility of CuBTC@IL-derived materials for heterogeneous catalysisLarrea E.S., Fernández de Luis R., Fidalgo-Marijuan A., Maya E.M., Iglesias M., Arriortua M.I. CrystEngComm, 22, 17, 2904, 2913, (2020) |
Tailoring electroactive poly(vinylidene fluoride‐co-trifluoroethylene) microspheres by a nanoprecipitation methodMacedo A.S., Carvalho E.O., Cardoso V.F., Correia D.M., Tubio C.R., Fidalgo-Marijuan A., Botelho G., Lanceros-Méndez S. Materials Letters, 261, 127018, (2020) |
Tailoring silk fibroin separator membranes pore size for improving performance of lithium ion batteriesReizabal A., Gonçalves R., Fidalgo-Marijuan A., Costa C.M., Pérez L., Vilas J.-L., Lanceros-Mendez S. Journal of Membrane Science, 598, 117678, (2020) |
Double role of metalloporphyrins in catalytic bioinspired supramolecular metal-organic frameworks (SMOFs)Fidalgo-Marijuan A., Amayuelas E., Barandika G., Larrea E.S., Bazán B., Urtiaga M.K., Iglesias M., Arriortua M.I. IUCrJ, 5, 559, 568, (2018) |
Open and closed forms of the interpenetrated [Cu2(Tae)(Bpa)2](NO3)2·: N H2O: Magnetic properties and high pressure CO2/CH4 gas sorptionFernández De Luis R., Larrea E.S., Orive J., Fidalgo-Marijuan A., Lezama L., Arriortua M.I. Dalton Transactions, 47, 3, 958, 970, (2018) |
Cationic Mn2+/H+ exchange leading a slow solid-state transformation of a 2D porphyrinic network at ambient conditionsAmayuelas E., Fidalgo-Marijuan A., Bazán B., Urtiaga M.K., Barandika G., Lezama L., Arriortua M.I. Journal of Solid State Chemistry, 247, 161, 167, (2017) |
Highly thermally stable heterogeneous catalysts: Study of 0D and 3D porphyrinic MOFsAmayuelas E., Fidalgo-Marijuán A., Bazán B., Urtiaga M.K., Barandika G., Arriortua M.I. CrystEngComm, 19, 48, 7244, 7252, (2017) |
CuII-based metal-organic nanoballs for very rapid adsorption of dyes and iodineAmayuelas E., Fidalgo-Marijuán A., Bazán B., Urtiaga M.-K., Barandika G., Arriortua M.-I. CrystEngComm, 18, 10, 1709, 1712, (2016) |
Thermal and Magnetic Diversity in the Behaviour of the CuII-bdc-bpa System: 1D, 2D and Interpenetrated 3D FrameworksBravo-García L., Barandika G., Fidalgo-Marijuan A., Bazan B., Urtiaga M.K., Lezama L., Arriortua M.I. European Journal of Inorganic Chemistry, 2016, 29, 4783, 4791, (2016) |
Coordination and crystallization molecules: Their interactions affecting the dimensionality of metalloporphyrinic SCFsFidalgo-Marijuan A., Amayuelas E., Barandika G., Bazán B., Urtiaga M.K., Arriortua M.I. Molecules, 20, 4, 6683, 6699, (2015) |
Heterogeneous catalytic properties of unprecedented μ-O-[FeTCPP]2 dimers (H2TCPP = meso-tetra(4-carboxyphenyl)porphyrin): An unusual superhyperfine EPR structureFidalgo-Marijuan A., Barandika G., Bazán B., Urtiaga M.K., Larrea E.S., Iglesias M., Lezama L., Arriortua M.I. Dalton Transactions, 44, 1, 213, 222, (2015) |
Mother structures related to the hexagonal and cubic close packing in Cu24 clusters: Solvent-influenced derivativesAmayuelas E., Fidalgo-Marijuan A., Barandika G., Bazán B., Urtiaga M.-K., Arriortua M.I. CrystEngComm, 17, 17, 3297, 3304, (2015) |
Water-induced phase transformation of a CuII coordination framework with pyridine-2,5-dicarboxylate and di-2-pyridyl ketone: synchrotron radiation analysisLlano-Tomé F., Bazán B., Urtiaga M.K., Barandika G., Fidalgo-Marijuan A., Fernández De Luis R., Arriortua M.I. CrystEngComm, 17, 33, 6346, 6354, (2015) |
Photocatalysis for water remediation
Photochemical analysis
Heterogenous catalysis for environmental sustainability
Nanomaterials synthesis and characterisation
Nanocomposite polymer membranes development and characterisation
Dr. Fangyuan Zheng graduated in Chemical Engineering in 2014 at the University of the Basque Country (UPV/EHU). She did her degree thesis based on effect of NaOH concentration on desilication of zeolite HY in Pt/HY catalysts for hydrocracking polystyrene. In 2016, she finished her master’s degree in Chemical Engineering at the UPV/EHU with a master thesis related to water treatment plant design carrying out in SENER Ingeniería y Sistemas under a grant. Afterwards, she was involved in several international engineering projects in Environment & Renewable Energy field.
In 2019, she carried out doctoral thesis at BCMaterials and Macromolecular Chemistry Group (Labquimac) of UPV/EHU by a pre-doctoral fellowship from UPV/EHU. Her doctoral thesis was focused on dealing with the major drawback of photocatalysis (poor efficiency under sunlight and reusability) towards industrial applications for water remediation and concluded her PhD in 2023. She has a solid knowledge in removal of contaminants of emerging concern (CECs) such as pharmaceuticals by photocatalytic process and a wide experience in the nanomaterials and nanocomposite membranes development and characterisation (e.g., XRD, DLS, DRS, SEM, TEM, FTIR, DSC…).
Currently, as a post-doctoral researcher at BCMaterials, her research is focused on the development of smart materials based on hydrogels for actuator and sensor applications
Upcycling discarded cellulosic surgical masks into catalytically active freestanding materialsReguera J., Zheng F., Shalan A.E., Lizundia E. Cellulose, 29, 4, 2223, 2240, (2022) |
Magnetic Properties of Tetragonal SmFe12−xMox Alloys in Bulk and Melt-Spun RibbonsRodríguez-Crespo B., Garcia-Franco A., Rosero-Romo J.J., Echevarria-Bonet C., Porro J.M., Saiz P.G., Salazar D. Physica Status Solidi (A) Applications and Materials Science, 219, 15, 2100725, (2022) |
Magnetic Properties of Tetragonal SmFe12−xMox Alloys in Bulk and Melt-Spun RibbonsRodríguez-Crespo B., Garcia-Franco A., Rosero-Romo J.J., Echevarria-Bonet C., Porro J.M., Saiz P.G., Salazar D. Physica Status Solidi (A) Applications and Materials Science, 219, 15, 2100725, (2022) |
Beatriz Leiva se graduó en Bioquímica en 2020 en la Universidad de Granada. Su Trabajo de Fin de Grado se titula “Aplicaciones biomédicas de nanopartículas de sílice mesoporosa”, y fue realizada en el Departamento de Química Inorgánica de la Facultad de Ciencias de la Facultad de Granada.
Posteriormente, terminó el Máster en Biomateriales en 2021 en la Universidad Complutense de Madrid. Su Trabajo de Fin de Máster trató sobre la síntesis, funcionalización y la caracterización de nanopartículas de sílice mesoporosa con el fin de crear un nuevo tratamiento para la enfermedad de la osteoporosis. Se realizó en el Departamento de Química en Ciencias Farmacéuticas de la Facultad de Farmacia de la UCM.
Actualmente, está realizando su doctorado en BCMaterials bajo la supervisión del Dr. Unai Silván y del Dr. Senentxu Lanceros-Méndez. Su trabajo se centra en el desarrollo de microambientes celulares activos para estrategias avanzadas de regeneración de tejidos.
Corina Rodríguez Esteban graduated in Chemistry in 2019 at the University of Sevilla. Her degree thesis was on "Synthesis and characterization of Metal-Organic Frameworks (MOFs) for environmental applications", at the Inorganic Chemistry Group of the Faculty of Chemistry of Sevilla.
Subsequently, she finished her master's degree in Science and Technology of New Materials in 2020 at the University of Sevilla with a thesis based on the development of lanthanide-based trimodal nanoparticles contrast agent for luminescence, magnetic resonance and X-ray computed tomography imaging, carried out in the Colloidal Materials Group of the Material Science Institute (ICMS) of Sevilla.
Currently, she is starting her PhD at BCMaterials in the field of molecular magnetism under the direction of Itziar Oyarzabal.
Magneto-thermal properties and slow magnetic relaxation in Mn(ii)Ln(iii) complexes: influence of magnetic coupling on the magneto-caloric effectOyarzabal I., Zabala-Lekuona A., Mota A.J., Palacios M.A., Rodríguez-Diéguez A., Lorusso G., Evangelisti M., Rodríguez-Esteban C., Brechin E.K., Seco J.M., Colacio E. Dalton Transactions, 51, 34, 12954, 12967, (2022) |
Competition of Magnetic Anisotropies in Permalloy Antidot LatticesPorro J.M., Villar A., Redondo C., Río-López N.A., Lasheras A., Salazar D., Morales R., Fernández-Martín E. Magnetochemistry, 8, 5, 55, (2022) |
Analysis of the influence of microencapsulated phase change materials on the behavior of a new generation of thermo-regulating shape memory polyurethane fibersLaza J.M., Veloso-Fernández A., Sanchez-Bodon J., Martín A., Goitandia A.M., Monteserín C., Mendibil X., Vidal K., Lambarri J., Aranzabe E., Blanco M., Vilas-Vilela J.L. Polymer Testing, 116, 107807, (2022) |
Towards a new generation of non-cytotoxic shape memory thermoplastic polyurethanes for biomedical applicationsVeloso-Fernández A., Laza J.M., Ruiz-Rubio L., Martín A., Taguado M., Benito-Vicente A., Martín C., Vilas J.L. Materials Today Communications, 33, 104730, (2022) |
Due to the previous work done throughout his professional career, Josu has experience in characterization of multifunctional materials both theoretically and experimentally. He has extensive knowledge of programming in both Python and MATLAB, and knows how to perform electromagnetic simulations using commercial softwares such as LUMERICAL and COMSOL. In addition, he has broad experience in different experimental techniques, such as: SEM, TEM, VSM, sputtering, tensile and fatigue tests, rotational rheometry and piezoresistive measurements. Due to his background in electronics, Josu masters the simulation and design of electronic circuits using PSPICE and their subsequent implementation on printed circuit boards (PCB).
Josu earned his Electronics Engineering degree at UPV/EHU Euskal Herriko Unibertsitatea (Spain) in 2021 and finished a Master Degree in New Materials at the same university in 2022. Along his study years he has participated in different reasearch groups:
Now, Josu will work with Senentxu Lanceros Méndez and Carmen Rial Tubio in the study and development of novel magnetic responsive multifunctional materials and structures through 3D/4D printing techniques as a Predoctoral Researcher. The ultimate goal of his thesis would be to use such magnetic multifunctional structures as sensors and/or actuators capable of meeting the new global challenges of digitalization, such as IoT and Industry 4.0, thus promoting the usefulness of additive manufacturing.
ORCID: https://orcid.org/0000-0002-4951-9984
Polymeric Nanocomposite Membranes for Water Remediation: From Classic Approaches to 3D PrintingRubio L.R., Teijido R., Veloso-Fernández A., Pérez-Yáñez S., Vilas-Vilela J.L. Engineering Materials, 191, 243, (2022) |
State of the art and current trends on layered inorganic-polymer nanocomposite coatings for anticorrosion and multi-functional applicationsTeijido R., Ruiz-Rubio L., Echaide A.G., Vilas-Vilela J.L., Lanceros-Mendez S., Zhang Q. Progress in Organic Coatings, 163, 106684, (2022) |
Ander has experience in nanocomposites synthesis and characterization. In particular, he is proficient in the use of the following characterization methods:
Currently, Ander's main work is the development of printable magnetically actuated devices. His work involves the synthesis and characterization of magnetorheological elastomers with tunable mechanical properties via magnetic fields, and the process of making them suitable for additive manufacturing techniques. These smart nanocomposites ought to be used in several fields, ranging from vibration absorbers and dampers to biomedical devices for tissue engineering.
He is also interested in magnetic properties of materials, and measuring materials' properties at the nanoscale using atomic force microscopy.
LinkedIn: www.linkedin.com/in/andergarciadiez
Google Scholar: https://scholar.google.es/citations?hl=es&user=cNUQFssAAAAJ
ORCiD: https://orcid.org/0000-0003-3584-5030
Self-sensing fluorescence polymer composites for chemical degradation protection and monitoringTubio C.R., Seoane-Rivero R., Garcia A., Gallardo A., Salaverria L.D., Amondarian A.L.A., Zubieta K.G., Lanceros-Mendez S. Progress in Organic Coatings, 168, 106879, (2022) |
Photocurable magnetic materials with tailored functional propertiesMendes-Felipe C., Garcia A., Salazar D., Vilas-Vilela J.L., Lanceros-Mendez S. Composites Part C: Open Access, 5, 100143, (2021) |
Competition of Magnetic Anisotropies in Permalloy Antidot LatticesPorro J.M., Villar A., Redondo C., Río-López N.A., Lasheras A., Salazar D., Morales R., Fernández-Martín E. Magnetochemistry, 8, 5, 55, (2022) |
Designing Metal-Chelator-like Traps by Encoding Amino Acids in Zirconium-Based Metal-Organic FrameworksValverde A., Tovar G.I., Rio-López N.A., Torres D., Rosales M., Wuttke S., Fidalgo-Marijuan A., Porro J.M., Jiménez-Ruiz M., García Sakai V., García A., Laza J.M., Vilas-Vilela J.L., Lezama L., Arriortua M.I., Copello G.J., Fernández De Luis R. Chemistry of Materials, 34, 21, 9666, 9684, (2022) |
Neutron scattering as a powerful tool to investigate magnetic shape memory alloys: A reviewRío‐lópez N.A., Lázpita P., Salazar D., Petrenko V.I., Plazaola F., Chernenko V., Porro J.M. Metals, 11, 5, 829, (2021) |
Bio-Based Piezo- and Thermoresistive Photocurable Sensing Materials from Acrylated Epoxidized Soybean OilMendes-Felipe C., Costa P., Roppolo I., Sangermano M., Lanceros-Mendez S. Macromolecular Materials and Engineering, 307, 7, 2100934, (2022) |
Hybrid Organic–Inorganic Membranes for Photocatalytic Water RemediationMendes-Felipe C., Veloso-Fernández A., Vilas-Vilela J.L., Ruiz-Rubio L. Catalysts, 12, 2, 180, (2022) |
Capacitive and illumination systems based on printed and hybrid electronicsPeřinka N., Pozo B., Fernández De Gorostiza E., Mendes-Felipe C., Vilas-Vilela J.L., Lanceros-Méndez S. Flexible and Printed Electronics, 6, 1, 015004, (2021) |
Chitin/Metal-Organic Framework Composites as Wide-Range AdsorbentTovar Jimenez G.I., Valverde A., Mendes-Felipe C., Wuttke S., Fidalgo-Marijuan A., Larrea E.S., Lezama L., Zheng F., Reguera J., Lanceros-Méndez S., Arriortua M.I., Copello G., de Luis R.F. ChemSusChem, 14, 14, 2892, 2901, (2021) |
Lithium bis(trifluoromethanesulfonyl)imide blended in polyurethane acrylate photocurable solid polymer electrolytes for lithium-ion batteriesMendes-Felipe C., Barbosa J.C., Gonçalves R., Miranda D., Costa C.M., Vilas-Vilela J.L., Lanceros-Mendez S. Journal of Energy Chemistry, 62, 485, 496, (2021) |
Photocurable magnetic materials with tailored functional propertiesMendes-Felipe C., Garcia A., Salazar D., Vilas-Vilela J.L., Lanceros-Mendez S. Composites Part C: Open Access, 5, 100143, (2021) |
Photocurable temperature activated humidity hybrid sensing materials for multifunctional coatingsMendes-Felipe C., Salado M., Fernandes L.C., Correia D.M., Ruiz-Rubio L., Tariq M., Esperança J.M.S.S., Vilas-Vilela J.L., Lanceros-Mendez S. Polymer, 221, 123635, (2021) |
High dielectric constant UV curable polyurethane acrylate/indium tin oxide composites for capacitive sensingMendes-Felipe C., Barbosa J.C., Gonçalves S., Pereira N., Costa C.M., Vilas-Vilela J.L., Lanceros-Mendez S. Composites Science and Technology, 199, 108363, (2020) |
UV curable nanocomposites with tailored dielectric responseMendes-Felipe C., Rodrigues-Marinho T., Vilas J.L., Lanceros-Mendez S. Polymer, 196, 122498, (2020) |
State-of-the-Art and Future Challenges of UV Curable Polymer-Based Smart Materials for Printing TechnologiesMendes-Felipe C., Oliveira J., Etxebarria I., Vilas-Vilela J.L., Lanceros-Mendez S. Advanced Materials Technologies, 4, 3, 1800618, (2019) |
Stimuli responsive UV cured polyurethane acrylated/carbon nanotube composites for piezoresistive sensingMendes-Felipe C., Oliveira J., Costa P., Ruiz-Rubio L., Iregui A., González A., Vilas J.L., Lanceros-Mendez S. European Polymer Journal, 120, 109226, (2019) |
Evaluation of postcuring process on the thermal and mechanical properties of the Clear02™ resin used in stereolithographyMendes-Felipe C., Patrocinio D., Laza J.M., Ruiz-Rubio L., Vilas-Vilela J.L. Polymer Testing, 72, 115, 121, (2018) |
Automated Machine Learning Approach in Material Discovery of Hole Selective Layers for Perovskite Solar CellsYildirim M.O., Gok Yildirim E.C., Eren E., Huang P., Haris M.P.U., Kazim S., Vanschoren J., Uygun Oksuz A., Ahmad S. Energy Technology (In Press) |
Interface engineering of a hole-transport layer/perovskite with low-band-gap 2D-carbon nitrides for solar cell fabricationAshraf M., Hemasiri N.H., Kazim S., Ullah N., Khan M., Adewale Ganiyu S., R. Alhooshani K., Tahir M.N., Ahmad S. Sustainable Energy and Fuels (In Press) |
UV-Selective Optically Transparent Zn(O,S)-Based Solar CellsLopez-Garcia A.J., Bauer A., Fonoll Rubio R., Payno D., Jehl Li-Kao Z., Kazim S., Hariskos D., Izquierdo-Roca V., Saucedo E., Pérez-Rodríguez A. Solar RRL (In Press) |
Amplifying the Performance and Stability of Perovskite Solar Cells Using Fluorinated Salt as the Surface PassivatorGhaderian A., Hemasiri N.H., Ahmad S., Kazim S. Energy Technology, 11, 1, 2200211, (2023) |
Dimers of diethynyl-conjugated zinc-phthalocyanine as hole selective layers for perovskite solar cell fabricationPegu M., Molina D., Álvaro-Martins M.J., Castillo M., Ferrer L., Huang P., Kazim S., Sastre-Santos I., Ahmad S. Journal of Materials Chemistry C, 10, 33, 11975, 11982, (2022) |
Erratum: The impact of fluorine atoms on a triphenylamine-based dopant-free hole-selective layer for perovskite solar cells (J. Mater. Chem. C (2022) 10 (476–484) DOI: 10.1039/D1TC04972K)Ghaderian A., Pegu M., Hemasiri N.H., Huang P., Ahmad S., Kazim S. Journal of Materials Chemistry C, 10, 8, 3259, (2022) |
Impact of Polymeric Hole-Selective Layers on Chemical Inductance in Inverted Perovskite Solar CellsDhifaoui H., Hemasiri N.H., Mehdi H., Bouazizi A., Kazim S., Ahmad S. Energy Technology, 10, 11, 2200624, (2022) |
Leverage of Pyridine Isomer on Phenothiazine Core: Organic Semiconductors as Selective Layers in Perovskite Solar CellsHuang P., Manju, Kazim S., Lezama L., Misra R., Ahmad S. ACS Applied Materials and Interfaces, 14, 4, 5729, 5739, (2022) |
Microstrain and Urbach Energy Relaxation in FAPbI3-Based Solar Cells through Powder Engineering and Perfluoroalkyl Phosphate Ionic Liquid AdditivesHaris M.P.U., Kazim S., Ahmad S. ACS Applied Materials and Interfaces, 14, 21, 24546, 24556, (2022) |
Molecular Interface Engineering via Triazatruxene-Based Moieties/NiOx as Hole-Selective Bilayers in Perovskite Solar Cells for ReliabilityHemasiri N.H., Caliò L., Pegu M., Kazim S., Ahmad S. Solar RRL, 6, 4, 2100793, (2022) |
Predicting Perovskite Bandgap and Solar Cell Performance with Machine LearningGok E.C., Yildirim M.O., Haris M.P.U., Eren E., Pegu M., Hemasiri N.H., Huang P., Kazim S., Uygun Oksuz A., Ahmad S. Solar RRL, 6, 2, 2100927, (2022) |
Reducing the Trap Density in MAPbI3 Based Perovskite Solar Cells via Bromide SubstitutionPegu M., Ghaderian A., Ahmad S., Kazim S. ChemPlusChem, 87, 4, e202200021, (2022) |
Review of degradation and failure phenomena in photovoltaic modulesAghaei M., Fairbrother A., Gok A., Ahmad S., Kazim S., Lobato K., Oreski G., Reinders A., Schmitz J., Theelen M., Yilmaz P., Kettle J. Renewable and Sustainable Energy Reviews, 159, 112160, (2022) |
Review of technology specific degradation in crystalline silicon, cadmium telluride, copper indium gallium selenide, dye sensitised, organic and perovskite solar cells in photovoltaic modules: Understanding how reliability improvements in mature technologies can enhance emerging technologiesKettle J., Aghaei M., Ahmad S., Fairbrother A., Irvine S., Jacobsson J.J., Kazim S., Kazukauskas V., Lamb D., Lobato K., Mousdis G.A., Oreski G., Reinders A., Schmitz J., Yilmaz P., Theelen M.J. Progress in Photovoltaics: Research and Applications, 30, 12, 1365, 1392, (2022) |
Strategic factors to design the next generation of molecular water oxidation catalysts: Lesson learned from ruthenium complexesGhaderian A., Kazim S., Khaja Nazeeruddin M., Ahmad S. Coordination Chemistry Reviews, 450, 214256, (2022) |
Structural and photophysical investigation of single-source evaporation of CsFAPbI3 and FAPbI3 perovskite thin filmsKlipfel N., Haris M.P.U., Kazim S., Sutanto A.A., Shibayama N., Kanda H., Asiri A.M., Momblona C., Ahmad S., Nazeeruddin M.K. Journal of Materials Chemistry C, 10, 27, 10075, 10082, (2022) |
Substituents interplay in piperidinyl-perylenediimide as dopant-free hole-selective layer for perovskite solar cells fabricationPayno D., Salado M., Andresini M., Gutiérrez-Moreno D., Huang P., Ciriaco F., Kazim S., Sastre-Santos Á., Fernández-Lázaro F., Ahmad S. Emergent Materials, 5, 4, 977, 985, (2022) |
The impact of fluorine atoms on a triphenylamine-based dopant-free hole-selective layer for perovskite solar cellsGhaderian A., Pegu M., Hemasiri N.H., Huang P., Ahmad S., Kazim S. Journal of Materials Chemistry C, 10, 2, 476, 484, (2022) |
The versatility of polymers in perovskite solar cellsGhaderian A., Heiran R., Kazim S., Ahmad S. Journal of Materials Chemistry C, 4, (2022) |
1T-Rich 2D-WS2as an interfacial agent to escalate photo-induced charge transfer dynamics in dopant-free perovskite solar cellsHarindu Hemasiri N., Kazim S., Ahmad S. Journal of Materials Chemistry C, 9, 31, 9865, 9873, (2021) |
A Machine Learning Approach for Metal Oxide Based Polymer Composites as Charge Selective Layers in Perovskite Solar CellsYildirim M.O., Gok E.C., Hemasiri N.H., Eren E., Kazim S., Oksuz A.U., Ahmad S. ChemPlusChem, 86, 5, 785, 793, (2021) |
An Approach to Quantify the Negative Capacitance Features in a Triple-Cation based Perovskite Solar CellsDhifaoui H., Hemasiri N.H., Aloui W., Bouazizi A., Kazim S., Ahmad S. Advanced Materials Interfaces, 8, 22, 2101002, (2021) |
Asymmetrically Substituted Phthalocyanines as Dopant-Free Hole Selective Layers for Reliability in Perovskite Solar CellsHuang P., Hernández A., Kazim S., Follana-Berná J., Ortiz J., Lezama L., Sastre-Santos Á., Ahmad S. ACS Applied Energy Materials, 4, 9, 10124, 10135, (2021) |
Deciphering the Orientation of the Aromatic Spacer Cation in Bilayer Perovskite Solar Cells through Spectroscopic TechniquesPegu M., Kazim S., Buffeteau T., Bassani D.M., Ahmad S. ACS Applied Materials and Interfaces, 13, 40, 48219, 48227, (2021) |
Decoding the charge carrier dynamics in triple cation-based perovskite solar cellsKhan M.T., Hemasiri N.H., Kazim S., Ahmad S. Sustainable Energy and Fuels, 5, 24, 6352, 6360, (2021) |
Energy level engineering of charge selective contact and halide perovskite by modulating band offset: Mechanistic insightsRaoui Y., Ez-Zahraouy H., Kazim S., Ahmad S. Journal of Energy Chemistry, 54, 822, 829, (2021) |
Harnessing the potential of lead-free Sn-Ge based perovskite solar cells by unlocking the recombination channelsRaoui Y., Kazim S., Galagan Y., Ez-Zahraouy H., Ahmad S. Sustainable Energy and Fuels, 5, 18, 4661, 4667, (2021) |
Impact of cation substitution in all solution-processed Cu2(Cd, Zn)SnS4superstrate solar cellsPayno D., Kazim S., Ahmad S. Journal of Materials Chemistry C, 9, 48, 17392, 17400, (2021) |
Interfacial modification of perovskite solar cells via Cs2CO3: Computational and experimental approachRaoui Y., Pegu M., Kazim S., Ahmad S. Solar Energy, 228, 700, 705, (2021) |
Low-Temperature-Processed Perovskite Solar Cells Fabricated from Presynthesized CsFAPbI3PowderHaris M.P.U., Kazim S., Ahmad S. ACS Applied Energy Materials, 4, 3, 2600, 2606, (2021) |
Mechanistic origin and unlocking of negative capacitance in perovskites solar cellsKhan M.T., Huang P., Almohammedi A., Kazim S., Ahmad S. iScience, 24, 2, 102024, (2021) |
N-Bromosuccinimide as an Interfacial Alleviator for Br/I Exchange in Perovskite for Solar Cell FabricationPegu M., Kazim S., Buffeteau T., Bassani D.M., Ahmad S. ACS Applied Energy Materials, 4, 4, 3130, 3140, (2021) |
Protocol for deciphering the electrical parameters of perovskite solar cells using immittance spectroscopyKhan M.T., Huang P., Almohammedi A., Kazim S., Ahmad S. STAR Protocols, 2, 2, 100510, (2021) |
Substance and shadow of formamidinium lead triiodide based solar cellsHaris M.P.U., Kazim S., Pegu M., Deepa M., Ahmad S. Physical Chemistry Chemical Physics, 23, 15, 9049, 9060, (2021) |
Sulfurization temperature effects on crystallization and performance of superstrate CZTS solar cellsPayno D., Kazim S., Salado M., Ahmad S. Solar Energy, 224, 1136, 1143, (2021) |
Tailoring of a Phenothiazine Core for Electrical Conductivity and Thermal Stability: Hole-Selective Layers in Perovskite Solar CellsHuang P., Manju, Kazim S., Lezama L., Misra R., Ahmad S. ACS Applied Materials and Interfaces, 13, 28, 33311, 33320, (2021) |
Tetra-indole core as a dual agent: A hole selective layer that passivates defects in perovskite solar cellsPegu M., Kazim S., Huang P., Lezama L., Ahmad S. Journal of Materials Chemistry C, 9, 22, 7074, 7082, (2021) |
Unravelling the theoretical window to fabricate high performance inorganic perovskite solar cellsRaoui Y., Ez-Zahraouy H., Ahmad S., Kazim S. Sustainable Energy and Fuels, 5, 1, 219, 229, (2021) |
Dibenzo-tetraphenyl diindeno perylene as hole transport layer for high-bandgap perovskite solar cellsPegu M., Caliò L., Ahmadpour M., Rubahn H.-G., Kazim S., Madsen M., Ahmad S. Emergent Materials, 3, 2, 109, 116, (2020) |
Electrical Methods to Elucidate Charge Transport in Hybrid Perovskites Thin Films and DevicesTaukeer Khan M., Almohammedi A., Kazim S., Ahmad S. Chemical Record, 20, 5, 452, 465, (2020) |
Elucidating the Doping Mechanism in Fluorene-Dithiophene-Based Hole Selective Layer Employing Ultrahydrophobic Ionic Liquid DopantHarindu Hemasiri N., Kazim S., Calio L., Paek S., Salado M., Pozzi G., Lezama L., Nazeeruddin M.K., Ahmad S. ACS Applied Materials and Interfaces, 12, 8, 9395, 9403, (2020) |
Interface Engineering by Thiazolium Iodide Passivation Towards Reduced Thermal Diffusion and Performance Improvement in Perovskite Solar CellsSalado M., Andresini M., Huang P., Khan M.T., Ciriaco F., Kazim S., Ahmad S. Advanced Functional Materials, 30, 14, 1910561, (2020) |
Molecularly engineered thienyl-triphenylamine substituted zinc phthalocyanine as dopant free hole transporting materials in perovskite solar cellsHuang P., Hernández A., Kazim S., Ortiz J., Sastre-Santos Á., Ahmad S. Sustainable Energy and Fuels, 4, 12, 6188, 6195, (2020) |
Partial substitution of the CdS buffer layer with interplay of fullerenes in kesterite solar cellsPayno D., Sánchez Y., Blázquez O., Giraldo S., Salado M., Kazim S., Saucedo E., Ahmad S. Journal of Materials Chemistry C, 8, 36, 12533, 12542, (2020) |
Polymer Amplification to Improve Performance and Stability toward Semitransparent Perovskite Solar Cells FabricationNikbakht H., Shalan A.E., Salado M., Assadi A., Boroojerdian P., Kazim S., Ahmad S. Energy Technology, 8, 4, 1900728, (2020) |
Pyridine Bridging Diphenylamine-Carbazole with Linking Topology as Rational Hole Transporter for Perovskite Solar Cells FabricationHuang P., Manju, Kazim S., Sivakumar G., Salado M., Misra R., Ahmad S. ACS Applied Materials and Interfaces, 12, 20, 22881, 22890, (2020) |
Reduced trap density and mitigating the interfacial losses by placing 2D dichalcogenide material at perovskite/HTM interface in a dopant free perovskite solar cellsHemasiri N.H., Kazim S., Ahmad S. Nano Energy, 77, 105292, (2020) |
Tuning of MEH-PPV electro-optical properties by incorporation of benzylidene-malononitrile-based small organic moleculesDhifaoui H., Pegu M., Aloui W., Bouazizi A., Kazim S., Ahmad S. Emergent Materials, 3, 5, 687, 692, (2020) |
Understanding and harnessing the potential of layered perovskite-based absorbers for solar cellsPegu M., Haris M.P.U., Kazim S., Ahmad S. Emergent Materials, 3, 6, 751, 778, (2020) |
Appraisement of Crystal Expansion in CH3NH3PbI3 on Doping: Improved Photovoltaic PropertiesSalado M., Kazim S., Nazeeruddin M.K., Ahmad S. ChemSusChem, 12, 11, 2329, (2019) |
Appraisement of Crystal Expansion in CH3NH3PbI3 on Doping: Improved Photovoltaic PropertiesSalado M., Kazim S., Nazeeruddin M.K., Ahmad S. ChemSusChem, 12, 11, 2329, (2019) |
Elucidating the Impact of Charge Selective Contact in Halide Perovskite through Impedance SpectroscopyKhan M.T., Salado M., Almohammedi A., Kazim S., Ahmad S. Advanced Materials Interfaces, 6, 21, 1901193, (2019) |
Lead-Free Perovskites: Metals Substitution towards Environmentally Benign Solar Cell FabricationShalan A.E., Kazim S., Ahmad S. ChemSusChem, 12, 18, 4116, 4139, (2019) |
Performance analysis of MAPbI3 based perovskite solar cells employing diverse charge selective contacts: Simulation studyRaoui Y., Ez-Zahraouy H., Tahiri N., El Bounagui O., Ahmad S., Kazim S. Solar Energy, 193, 948, 955, (2019) |
Toward Phase Stability: Dion-Jacobson Layered Perovskite for Solar CellsHuang P., Kazim S., Wang M., Ahmad S. ACS Energy Letters, 4, 12, 2960, 2974, (2019) |
A Generic Route of Hydrophobic Doping in Hole Transporting Material to Increase Longevity of Perovskite Solar CellsCaliò L., Salado M., Kazim S., Ahmad S. Joule, 2, 9, 1800, 1815, (2018) |
Benzothiadiazole-triphenylamine as an efficient exciton blocking layer in small molecule based organic solar cellsCaliò L., Patil B.R., Benduhn J., Vandewal K., Rubahn H.-G., Madsen M., Kazim S., Ahmad S. Sustainable Energy and Fuels, 2, 10, 2296, 2302, (2018) |
Design of cyclopentadithiophene-based small organic molecules as hole selective layers for perovskite solar cellsCaliò L., Kazim S., Salado M., Zimmermann I., Nazeeruddin M.K., Ahmad S. Sustainable Energy and Fuels, 2, 10, 2179, 2186, (2018) |
Oxazolium Iodide Modified Perovskites for Solar Cell FabricationSalado M., Shirzadi E., Kazim S., Fei Z., Nazeeruddin M.K., Dyson P.J., Ahmad S. ChemPlusChem, 83, 4, 279, 284, (2018) |
Surface passivation of perovskite layers using heterocyclic halides: Improved photovoltaic properties and intrinsic stabilitySalado M., Jodlowski A.D., Roldan-Carmona C., de Miguel G., Kazim S., Nazeeruddin M.K., Ahmad S. Nano Energy, 50, 220, 228, (2018) |
The role of Cs+ inclusion in formamidinium lead triiodide-based perovskite solar cellSalado M., Kazim S., Ahmad S. Chemical Papers, 72, 7, 1645, 1650, (2018) |
Understanding the influence of interface morphology on the performance of perovskite solar cellsSalado M., Calió L., Contreras-Bernal L., Idígoras J., Anta J.A., Ahmad S., Kazim S. Materials, 11, 7, 1073, (2018) |
Cu(ii) and Zn(ii) based phthalocyanines as hole selective layers for perovskite solar cellsCaliò L., Follana-Berná J., Kazim S., Madsen M., Rubahn H.-G., Sastre-Santos Á., Ahmad S. Sustainable Energy and Fuels, 1, 10, 2071, 2077, (2017) |
Vera has experience on polymer-based nanocomposite membrane synthesis and characterization.
Also has some experience on Direct-Ink-Writing technique with natural polymer based inks.
Vera Macedo achieved her Integrated Master Material's Engineering degree in 2021, at University of Minho, Portugal. Her master thesis was "Material and processes to 3D printed electronics" using composites of natural polymers and nanoparticles, to be applied on electronic devices.
In 2022 she joined BCMaterials to work on active and smart materials under IKUR neutrons program. Her research is focused on the development of solid polymer-based electrolytes for energy storage systems.
ORCID: 0000-0002-3903-182X
Thanks to the projects she has participated in, Nerea has experience on the design and fabrication of microfluidic systems with built-in magnetic sensors. The design stages include the use of simulation software such as COMSOL, FEMM and OOMMF for the study and optimization of the magnetic sensors, as well as CAD tools for the design of the photolithography masks used in the following steps. The microfluidic devices are fabricated using standard soft lithography techniques. The fabrication of the magnetic sensors requires the use of photolithography techniques as well as sputtering deposition.
Nerea obtained her Degree in Electronic's Engineering at the University of the Basque Country (UPV/EHU) in Leioa (Spain) in 2017, where she worked on her Final Degree Project on the fabrication of magneto-impedance micro-devices using photo-lithography. She then obtained a Master's Degree in Nanoscience and Nanotechnology at the University of Barcelona (Spain) in 2018, where she developed her Master's Final Project on the fabrication of an optical flow cytometer for C2C12 cell detection by fluorescence.
Nerea is now working on her PhD under the supervision of Prof. Alfredo García Arribas and Dr. David de Cos developing a microfluidic platform for the optical analysis and magnetic detection of magnetotactic bacteria.
Design, synthesis, and characterization of porous membrane materials: square-wave and cyclic voltammetry, IR-and UV-VIS spectroscopy, measurement of gas transport properties. Proton-selective and catalytic materials.
Ekaterina Chernova obtained her bachelor’s degree in Chemistry at Kurgan State University, and master’s degree in Chemistry and Materials Science at Lomonosov Moscow State University. During her Master Program she had an internship in Bochum, Germany. Afterwards, she defended her PhD thesis at Lomonosov Moscow State University jointly with Kurnakov Institute of General and Inorganic Chemistry of Russian Academy of Sciences (IGIC RAS) under supervision of Dr. Andrei Eliseev and Prof. Alexey Lukashin. During her PhD research, she developed and characterized new types of composite membranes based on polymers with intrinsic microporosity and graphene oxide for selective sweetening of sour natural gas and for air dehumidification. After obtaining PhD degree, she continued to work as a Researcher at Lomonosov Moscow State University in the field of 2D materials including graphene oxide-based structures. For 2021-2023 years she supervised the research project devoted to electrochemical reduction and characterization of thin films of graphene oxide for fuel cells applications. Ekaterina specializes in design, synthesis of membrane materials and their characterization with electrochemical and spectroscopic methods.
At present time, Ekaterina is a Postdoctoral Researcher in Stefan Wuttke´s Group for Science and is working on synthesis and characterization of 3D conductive metal-organic framework structures.
Ekaterina´s research interests are in the area of reticular materials, conductive 3D MOFs structures, spectroscopic and electrochemical analysis of porous materials.
Stem Cells, Cell reprogramming, Biomaterials, Tissue Engineering
Dr. Igor Irastorza studied Biochemistry at the University of the Basque Country and then joined the laboratory of Professors Fernando Unda and Gaskon Ibarretxe (Cell Signaling lab, Department of Cell Biology and Histology, UPV/EHU) as a doctoral student. In his dissertation (summa cum laude and Basque language recognition), he studied the potential of biomimetic titanium surfaces to enhance the osteogenic differentiation of human dental pulp stem cells (hDPSCs) in combination with blood plasma derived products. In addition, he completed a research stay in the laboratory of Professor Thimios Mitsiadis at the University of Zurich (Switzerland) comparing the osteogenic potential between hDPSCs and human bone marrow stem cells (hBMSCs) grown in the biomimetic titanium surfaces. In 2021, Igor did a professor substitution teaching the subject of Cellular Biology in the degree of medicine and of Histology in the degree of Physiotherapy. In 2022, Igor obtained a postdoctoral grant for the requalification of the Spanish university system (Margarita Salas) that he developed in the Electroactive Smart Materials group (Biomaterial section) of the Center of Physics in the University of Minho under the supervision of the Professor Clarisse Ribeiro and back in the Cell signaling lab with the Professor Fernando Unda in the UPV/EHU. In this period he enhanced the knowledge in the culture and manipulation of different cell types as well as he learned a variety of methods for biomaterial fabrication and physical characterization. Igor has published over 12 research articles and book chapters, which have received over 230 citations (h-index 7), and his work has been presented at over 20 national and international conferences.
In 2024, Igor joined BCMaterials as a Postdoctoral researcher after obtaining a Basque Government postdoctoral grant, in which he will investigate the potential of the piezoelectric and magnetoelectric polymers polyvinylidene fluoride (PVDF) and polyhydroxybutyrate-valerate (PHVB) for spinal cord regeneration therapies in combination with high neural differentiation capacity stem cells such as, dental pulp stem cells (DPSCs), bone marrow stem cells (BMSCs) and adipose derived stem cells (ADSCs).
DFT Calculations, Electrochemistry, Materials Science
Abdessamad EL ADEL received his bachelor degree in Physics in 2020, followed by a Master degree in Renewable Energies and Storage in 2022, at Mohammed V University in Rabat, Morocco, where He did his Internship at Córdoba University (UCO), Spain, entitled "DFT Calculations for cation transfer within Na and Mg batteries". He will carry out his PhD studies at BCMaterials under the supervision of Ivan Infante, Ikerbasque Research Professor, to model and characterise colloidal semiconductor quantum dots using a combination of classical molecular dynamics, DFT and machine learning tools.
Pablo Muñumer graduated from chemistry in 2019 and obtained a M. Sc. in Materials Science in 2020, both at the University of the Basque Country. During his master’s thesis, he started working on the synthesis and characterization of protein-polymer hybrids and nanomaterials derived from them, for the development of catalytic materials and sensors. He continued working on the same topic at CIC nanoGUNE, POLYMAT and the Faculty of Chemistry of Donostia-San Sebastián, of the UPV-EHU, until 2022. Since 2023, he is carrying on a PhD thesis at BCMaterials in the fabrication of electroactive soft materials and the understanding of these through advanced characterization techniques such as neutron scattering.
Polymer synthesis, polymer characterization, biomolecular chemistry.