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This book discusses electrocatalysis and electrocatalysts for energy, water electrolysis, water treatment, CO2 conversion, and green chemistry. It reviews various electrocatalysts and their properties and electrochemical performances. The first section of the book covers topics in direct alcohol fuel cells including Pt-based electrocatalysts as non-carbon electrode support materials and the development of electrocatalysts for direct methanol fuel cells. The second section of the book covers various topics in electrocatalysis and electrocatalysts for a cleaner environment, including electrocatalysts for the conversion of CO2 to valuable products and SYNGAS, electrocatalysts for water electrolysis, and much more.

Electrocatalysis.

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This book discusses electrocatalysis and electrocatalysts for energy, water electrolysis, water treatment, CO2 conversion, and green chemistry. It reviews various electrocatalysts and their properties and electrochemical performances. The first section of the book covers topics in direct alcohol fuel cells including Pt-based electrocatalysts as non-carbon electrode support materials and the development of electrocatalysts for direct methanol fuel cells. The second section of the book covers various topics in electrocatalysis and electrocatalysts for a cleaner environment, including electrocatalysts for the conversion of CO2 to valuable products and SYNGAS, electrocatalysts for water electrolysis, and much more.

Electrocatalysis.

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A comprehensive review of advances in one of today's most technologically important research fields.Spurred on by society's increasingly urgent demand for an inexpensive, environment-friendly alternative to the internal combustion engine, research into electrocatalytic fuel cells has yielded many exciting advances in the past few years. This rapid rate of progress, however, has created a daunting challenge for anyone attempting to track the important new trends in electrocatalysis by sorting through the huge and rapidly growing body of world literature in the field.Electrocatalysis was designed to save scientists hours of arduous legwork by providing an authoritative review of the most important recent advances in all technologically relevant aspects of electrocatalysis. Leading researchers from North America, Europe, and the Far East share what they know about an array of related topics, including:* Electrocatalysis of hydrogen and oxygen electrode reactions* Electrooxidation of small organic molecules* Design and synthesis of new electrocatalytic materials* The distribution and storage of hydrogen in metal hydrides* Hydrogenation of organic compounds as a means of hydrogen storage* Electron, ion, and atom transfer reactions* Influence of the double-layer structure on the rate of charge transfer* A unified theory of electron and ion transfer reactions at metal electrodes.Electrocatalysis is an indispensable working resource for electrochemists, chemical engineers, surface scientists, and materials scientists.

Electrocatalysis. --- Electrocatalyse

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"Catalysis in Electrochemistry: From Fundamentals to Strategies for Fuel Cell Development is a modern, comprehensive reference work on catalysis in electrochemistry, including principles, methods, strategies, and applications. It points out differences between catalysis at gas/surfaces and electrochemical interfaces, along with the future possibilities and impact of electrochemical science on energy problems. This book contributes both to fundamental science; experience in the design, preparation, and characterization of electrocatalytic materials; and the industrial application of electrocatalytic materials for electrochemical reactions. This is an essential resource for scientists globally in academia, industry, and government institutions."--

Electrocatalysis. --- Electrocatalyse

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This dissertation by Zhixing Wu focuses on the development and study of mesoporous transition metal oxides for use in oxygen-related reactions within energy conversion technologies. The research aims to create cost-effective and abundant materials as alternatives to platinum-group metals, which are expensive and scarce. The study investigates the electrocatalytic properties of various metal oxides, including nickel, cobalt, and chromium oxides, in processes like the oxygen reduction reaction (ORR) and the oxygen evolution reaction (OER). The dissertation highlights the synthesis methods, performance, and optimization of these materials for potential applications in sustainable energy technologies such as electrolyzers, fuel cells, and metal-air batteries. The intended audience includes researchers and professionals in the fields of material science, chemistry, and sustainable energy technology.

Transition metal oxides. --- Electrocatalysis.