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Fuel Cell Science
Theory, Fundamentals, and Biocatalysis
Andrzej Wieckowski (Edited by), A Wieckowski (Author), Jens Norskov (Edited by), S. Gottesfeld (Foreword by)
9780470410295, Wiley
Hardback, published 22 October 2010
656 pages
24.4 x 16.8 x 3.8 cm, 1.043 kg
A comprehensive survey of theoretical and experimental concepts in fuel cell chemistry Fuel cell science is undergoing significant development, thanks, in part, to a spectacular evolution of the electrocatalysis concepts, and both new theoretical and experimental methods. Responding to the need for a definitive guide to the field, Fuel Cell Science provides an up-to-date, comprehensive compendium of both theoretical and experimental aspects of the field. Designed to inspire scientists to think about the future of fuel cell technology, Fuel Cell Science addresses the emerging field of bio-electrocatalysis and the theory of heterogeneous reactions in fuel cell science and proposes potential applications for electrochemical energy production. The book is thorough in its coverage of the electron transfer process and structure of the electric double layer, as well as the development of operando measurements. Among other subjects, chapters describe: Edited by two leading faculty, the book: Written for electrochemists and electrochemistry graduate students, electrocatalysis researchers, surface and physical chemists, chemical engineers, automotive engineers, and fuel cell and energy-related researchers, this modern compendium can help today's best minds meet the challenges in fuel science technology.
Foreword vii Preface xi Preface to the Wiley Series on Electrocatalysis and Electrochemistry xiii Contributors xv 1. Hydrogen Reactions on Nanostructured Surfaces 1 2. Comparison of Electrocatalysis and Bioelectrocatalysis of Hydrogen and Oxygen Redox Reactions 71 3. Design of Palladium-Based Alloy Electrocatalysts for Hydrogen Oxidation Reaction in Fuel Cells 111 4. Mechanism of an Enhanced Oxygen Reduction Reaction at Platinum-Based Electrocatalysts: Identification and Quantification of Oxygen Species Adsorbed on Electrodes by X-Ray Photoelectron Spectroscopy 147 5. Biocathodes for Dioxygen Reduction in Biofuel Cells 169 6. Platinum Monolayer Electrocatalysts: Improving Structure and Activity 215 7. The Importance of Enzymes: Benchmarks for Electrocatalysts 237 8. Approach to Microbial Fuel Cells and Their Applications 257 9. Half-Cell Investigations of Cathode Catalysts for PEM Fuel Cells: From Model Systems to High-Surface-Area Catalysts 283 10. Nanoscale Phenomena in Catalyst Layers for PEM Fuel Cells: From Fundamental Physics to Benign Design 317 11. Fuel Cells with Neat Proton-Conducting Salt Electrolytes 371 12. Vibrational Spectroscopy for the Characterization of PEM Fuel Cell Membrane Materials 395 13. Ab Initio Electrochemical Properties of Electrode Surfaces 415 14. Electronic Structure and Reactivity of Transition Metal Complexes 433 15. Quantitative Description of Electron Transfer Reactions 457 16. Understanding Electrocatalysts for Low-Temperature Fuel Cells 489 17. Operando XAS Techniques: Past, Present, and Future 511 18. Operando X-Ray Absorption Spectroscopy of Polymer Electrolyte Fuel Cells 545 19. New Concepts in the Chemistry and Engineering of Low-Temperature Fuel Cells 565 Index 611
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Subject Areas: Electronics & communications engineering [TJ]
