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Electrochemical energy systems can successfully exploit beneficial characteristics of electrolyte and/or electrode membranes due to their intriguing peculiarities that make them well-established, standard components in devices such as fuel cells, electrolyzers, and flow batteries. Therefore, more and more researchers are attracted by these challenging yet important issues regarding the performance and behavior of the final device. This Special Issue of Membranes offers scientists and readers involved in these topics an appealing forum to bring and summarize the forthcoming Research & Development results, which stipulates that the composite electrolyte/electrode membranes should be tailored for lithium batteries and fuel cells. Various key aspects, such as synthesis/preparation of materials/components, investigation of the physicochemical and electrochemical properties, understanding of phenomena within the materials and electrolyte/electrode interface, and device manufacturing and performance, were presented and discussed using key research teams from internationally recognized experts in these fields.

Research & information: general --- Technology: general issues --- ionic liquids --- N-butyl-N-methylpyrrolidinium bis(trifluoromethanesulfonyl)imide --- poly(ethyleneoxide) --- polymer electrolytes --- lithium polymer batteries --- PVDF --- copolymers --- battery separator --- lithium-ion batteries --- solid state battery --- thermoplastic polymer electrolyte --- ionic liquid --- sepiolite --- inorganic filler --- gel polymer electrolytes --- composites --- montmorillonite clays --- lithium batteries --- PFG-NMR --- self-diffusion coefficient --- blend polymers --- ion transport --- nuclear magnetic resonance (NMR) --- gel polymer electrolyte --- electrospinning --- gravure printing --- printed batteries --- printed cathode --- multilayer --- Nafion --- CaTiO3-δ --- composite electrolyte --- succinonitrile --- electrolyte --- lithium ion batteries --- composite fibers --- mixtures

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This book describes recent studies in the development of nanomaterials for various secondary batteries, including Li-ion batteries (LIBs), Li–air batteries, and multivalent aqueous batteries. A simple, low-cost, and scalable synthetic process for the development of nanomaterials is another research topic in this book. The recent studies dedicated by researchers in this book highlight the importance of innovative nanostructures and new functional materials, which can open new opportunities for battery research.

Research & information: general --- Physics --- SnO2 --- self-assembly --- MoS2 --- nanosheets --- lithium-ion battery --- inorganic filler --- gel polymer electrolytes --- TiO2 --- Al2O3 --- SiO2 --- ZrO2 --- CeO2 --- BaTiO3 --- lithium polymer batteries --- Ag --- nanoparticle --- high rate --- zinc metal anode --- copper coating --- alloy interfacial layer --- uniform Zn deposition --- aqueous zinc-ion battery --- Ce-doped LaMnO3 perovskite --- XPS of LaMnO3 --- bifunctional activity --- probe sonication --- carbon-based composite --- transition metal dichalcogenide --- aqueous multivalent metal-ion batteries --- zinc-ion batteries --- magnesium-ion batteries --- aluminum-ion batteries --- aqueous batteries --- electrochemistry --- electrode materials --- ammonium vanadate --- ZnO --- composites --- binary --- ternary --- LIBs --- anode --- Zn metal anode --- aqueous Zn ion batteries --- mildly acidic electrolyte --- dendrite-free --- hydrogen evolution reaction suppression --- InSb --- InSb-C --- PAA binder --- anodes --- Li-ion batteries --- WS2 --- W2C --- hydrothermal method --- carbon nanotubes --- lithium-ion batteries