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Fuel cells --- Piles à combustible. --- Electrochemistry --- Électrochimie --- Piles à combustible à hydrogène. --- Piles à combustible. --- Électrochimie --- Piles à combustible à hydrogène.

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Énergie --- Électricité --- Systèmes photovoltaïques. --- Piles à combustible. --- Piles électriques. --- Stockage.

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Brennstoffzelle. --- Électricité --- Fuel cells. --- Piles à combustible --- Piles à combustible. --- Regelung. --- Verteilungsnetz. --- Production --- Génération répartie. --- Simulation par ordinateur.

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Alkaline anion exchange membranes (AAEMs) are cutting-edge polyelectrolyte materials with growing renewable energy applications including fuel cells, batteries, hydrogen electrolyzers and electrodialysis technologies. Their use in relatively new alkaline exchange membrane fuel cells (AEMFCs) is designed to produce cost-effective clean energy (electricity) produced by a chemical reaction. Rigorous studies are being conducted to meet the requirements of AAEMs precisely tailored for high anion conductivity and durability for future high energy efficient devices. Hence, over the past few years the academic and industrial scientific communities have explored various polymeric, composite and inorganic materials and studied their properties as a potential AAEM. The accumulated literature in this area of investigation is vast and in order to provide the community with the tools needed to strive forward, there is a clear need to condense this information in a single volume.

Anions. --- Membranes (Technology) --- Fuel cells. --- Proton exchange membrane fuel cells. --- Polymers. --- Membranes (technologie) --- Piles à combustible --- Piles à combustible à membranes anioniques. --- Piles à combustible à membrane échangeuse de protons. --- Polymères. --- Materials --- Matériaux.

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"This book provides a modern problem-solving compendium to help meet challenges in fuel cell science and technology worldwide. Along with the scientific foundation of this technology, the coverage includes recently developed strategies for the design, preparation, and characterization of catalytic materials for fuel cell electrodes, especially for new fuel cell cathodes. The methodology described includes a wide spectrum of methods for spurring new fuel cell catalysis concepts and improving existing designs to increase their performance. This is a key resource for a wide range of engineering and research scientist, professionals, and entrepreneurs"-- "The objective of this book is to provide a modern, comprehensive problem-solving compendium that can help us to meet meet present and upcoming challenges in fuel cell science and technology worldwide"--

Fuel cells. --- Enzymes. --- Piles à combustible --- Enzymes --- Science --- Chemistry --- Physical & Theoretical --- Physical & Theoretical. --- Enzymology --- Fuels --- Relation between energy and economics --- Electrochemistry --- Piles à combustible