Manuel
Salado Manzorro
Research Fellow
BCMaterials, Centro Vasco de Materiales, Aplicaciones y Nanoestructuras
Leioa, EspañaPublicaciones en colaboración con investigadores/as de BCMaterials, Centro Vasco de Materiales, Aplicaciones y Nanoestructuras (29)
2025
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Tailoring poly(vinylidene fluoride-trifluoroethylene-chlorofluoroethylene) membrane microstructure for lithium-ion battery separator applications
Journal of Colloid and Interface Science, Vol. 680, pp. 714-724
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Targeting flexible photodetectors responsive to specific irradiation spectra based on polymer-based composites
Journal of Power Sources, Vol. 626
2024
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Dimensionality Control of Li Transport by MOFs Based Quasi-Solid to Solid Electrolyte (Q-SSEs) for Li−Metal Batteries
Batteries and Supercaps, Vol. 7, Núm. 9
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Ionic Thermoelectric Generators in Vertical and Planar Topologies Based on Fluorinated Polymer Hybrid Materials with Ionic Liquids
Macromolecular Rapid Communications, Vol. 45, Núm. 10
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Photocurable Polyurethane Acrylated Composites with Ionic Liquid-Laden Metal-Organic Framework for Energy Storage and Electronic Applications
ACS Applied Nano Materials
2023
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Agar-Based Solid Polymer Electrolyte-Containing Ionic Liquid for Sustainable Electrochromic Devices
ACS Sustainable Chemistry and Engineering, Vol. 11, Núm. 46, pp. 16575-16584
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Lithium-ion batteries: Electrodes, separators, and solid polymer electrolytes
Sustainable Energy Storage in the Scope of Circular Economy: Advanced Materials and Device Design (John Wiley and Sons Ltd), pp. 43-68
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Molecular design of functional polymers for organic radical batteries
Energy Storage Materials, Vol. 60
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Next generation 2D materials for anodes in battery applications
Journal of Power Sources, Vol. 556
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Sustainable Collagen Blends with Different Ionic Liquids for Resistive Touch Sensing Applications
ACS Sustainable Chemistry and Engineering, Vol. 11, Núm. 15, pp. 5986-5998
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Three-Component Solid Polymer Electrolytes Based on Li-Ion Exchanged Microporous Silicates and an Ionic Liquid for Solid-State Batteries
Advanced Engineering Materials, Vol. 25, Núm. 2
2022
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Advanced Neutron and Synchrotron Characterization Techniques for Nanocomposite Perovskite Materials Toward Solar Cells Applications
Engineering Materials (Springer Science and Business Media B.V.), pp. 613-661
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Advances, challenges, and environmental impacts in metal–air battery electrolytes
Materials Today Energy, Vol. 28
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Enhancing operational stability in perovskite solar cells by solvent-free encapsulation method
Sustainable Energy and Fuels, Vol. 6, Núm. 9, pp. 2264-2275
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Magnetically active nanocomposites based on biodegradable polylactide, polycaprolactone, polybutylene succinate and polybutylene adipate terephthalate
Polymer, Vol. 249
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Substituents interplay in piperidinyl-perylenediimide as dopant-free hole-selective layer for perovskite solar cells fabrication
Emergent Materials, Vol. 5, Núm. 4, pp. 977-985
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The Role of Critical Raw Materials for Novel Strategies in Sustainable Secondary Batteries
Physica Status Solidi (A) Applications and Materials Science, Vol. 219, Núm. 15
2021
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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))
European Polymer Journal
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Free-standing intrinsically conducting polymer membranes based on cellulose and poly(vinylidene fluoride) for energy storage applications
European Polymer Journal, Vol. 144
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Photocurable temperature activated humidity hybrid sensing materials for multifunctional coatings
Polymer, Vol. 221