Electrochemical Science for a Sustainable Society
Electrochemical Science for a Sustainable Society

Author: Kohei Uosaki

Publisher: Springer

Published: 2017-06-15

Total Pages: 262

ISBN-13: 3319573101

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This book honors Professor. John O’M. Bockris, presenting authoritative reviews on some of the subjects to which he made significant contributions – i.e., electrocatalysis, fuel cells, electrochemical theory, electrochemistry of single crystals, in situ techniques, rechargeable batteries, passivity, and solar-fuels – and revealing the roles of electrochemical science and technology in achieving a sustainable society. Electrochemistry has long been an object of study and is now growing in importance, not only because of its fundamental scientific interest but also because of the central role it is expected to play in a future sustainable society. Professor John O’M. Bockris contributed greatly to various aspects of fundamental and applied electrochemistry – such as the structure of the double layer, kinetics and mechanism of the electrochemistry of hydrogen and oxygen, electrocatalysis, adsorption and electrochemical oxidation of small organic molecules, fuel cells, electrocrystallization, theoretical electrochemistry, new methods, photoelectrochemistry, bioelectrochemistry, corrosion and passivity, hydrogen in metals, ionic solutions and ionic liquids, and molten silicates and glasses, as well as socio-economic issues such as the hydrogen economy – for over half a century from 1945 until his retirement in 1997.

Biological Electrochemistry
Biological Electrochemistry

Author: Glenn Dryhurst

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 561

ISBN-13: 0323146031

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Biological Electrochemistry, Volume I is a result of a series of lectures given regarding the electrochemistry of small and large organic and inorganic molecules and how electrochemical information helps in understanding some of the biological redox reactions of these systems. This volume ultimately focuses on the electrochemistry of small and macromolecular organic compounds. This book is divided into seven chapters where each focuses on a particular organic compound. These compounds are quinones, catecholamines, phenothiazines, ascorbic acid, purines, vitamin B12 and related compounds, and proteins. Each chapter starts with a brief introduction to the compounds and then its structure and electrochemistry aspect. The last chapter gives a detailed discussion on different kinds of proteins and their electrochemistry aspects. This volume will be of help to students as well as electrochemists, biochemists, biologists, and other scientists in the field of biotechnology.

Redox Chemistry and Interfacial Behavior of Biological Molecules
Redox Chemistry and Interfacial Behavior of Biological Molecules

Author: Glenn Dryhurst

Publisher: Springer Science & Business Media

Published: 2012-12-06

Total Pages: 647

ISBN-13: 1461595347

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The papers in this book were presented at the Third International Symposium on Redox Mechanisms and Interfacial Properties of Molecules of Biological Importance held in Honolulu, Hawaii between October 19-23, 1987. This Symposium was held as part of the 172nd Meeting of The Electrochemical Society which was cosponsored by The Electrochemical Society of Japan with the cooperation of The Japan Society of Applied Physics. The aim of the Symposium was to bring together a group of electrochemists and bio-medical scientists with interests in electrochemistry from around the world to present their most current research results and/or to present up-to-date reviews of current areas of research activity. It is quite clear from the diversity of topics covered in the various papers that electrochemistry and electrochemical techniques and principles have much to contribute to our under standing of many important biochemical phenomena. For example, electrochemical studies are providing important insights into the redox properties of biomolecules ranging from relatively small organic molecules such as indoleamine neurotransmitters to very large organic/organometallic molecules which include various redox enzymes or model enzyme systems. Many of the most powerful analytical techniques are now being coupled to electrodes to monitor potential-controlled behaviors of bio logical molecules at charged interfaces. Electrochemical techniques are now being developed which permit extraordinarily small electrodes to be inserted into single cells to monitor electroactive biomolecules. Other microelectrodes are being employed to control cell growth and to manipulate single cells.

Electrocatalysis
Electrocatalysis

Author: Jacek Lipkowski

Publisher: John Wiley & Sons

Published: 1998-04-13

Total Pages: 398

ISBN-13: 9780471246732

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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.

Green Oxidation in Organic Synthesis
Green Oxidation in Organic Synthesis

Author: Ning Jiao

Publisher: John Wiley & Sons

Published: 2019-09-30

Total Pages: 531

ISBN-13: 1119304164

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A valuable introduction to green oxidation for organic chemists interested in discovering new strategies and new reactions for oxidative synthesis Green Oxidation in Organic Synthesis provides a comprehensive introduction and overview of chemical preparation by green oxidative processes, an entry point to the growing journal literature on green oxidation in organic synthesis. It discusses both experimental and theoretical approaches for the study of new catalysts and methods for catalytic oxidation and selective oxidation. The book highlights the discovery of new reactions and catalysts in recent years, discussing mechanistic insights into the green oxidative processes, as well as applications in organic synthesis with significant potential to have a major impact in academia and industry. Chapters are organized according to the functional groups generated in the reactions, presenting interesting achievements for functional group formation by green oxidative processes with O2, H2O2, photocatalytic oxidation, electrochemical oxidation, and enzymatic oxidation. The mechanisms of these novel transformations clearly illustrated. Green Oxidation in Organic Synthesis will serve as an excellent reference for organic chemists interested in discovering new strategies for oxidative synthesis which address the priorities of green and sustainable chemistry.