Modern Electrosynthetic Methods in Organic Chemistry
Marken, Frank, Atobe, Mahito
- 出版商: CRC
- 出版日期: 2020-12-18
- 售價: $2,350
- 貴賓價: 9.5 折 $2,233
- 語言: 英文
- 頁數: 194
- 裝訂: Quality Paper - also called trade paper
- ISBN: 0367732874
- ISBN-13: 9780367732875
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相關分類:
GAN 生成對抗網絡、化學 Chemistry
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商品描述
Modern Electrosynthetic Methods in Organic Chemistry introduces readers to new ways of making materials and compounds using low waste processes, employing energy from electricity rather than chemical reagents. It explores electro-organic synthesis, which offers clean synthesis tools as well as unusual reaction intermediates and reaction types. Despite applications previously remaining niche, due to the advent of microfluidic reactors this book is a must-read for industry professionals and academics alike. It targets specific areas of recent progress and development in the field that show high novelty and potential, at the same time inviting a wider range of applications in green and clean technology.
Key Features:
作者簡介
Dr. Frank Marken has worked at the University of Bath for many years. In September 2004 he was appointed to a Senior Lecturer position, then promoted to Reader in 2008, and finally to his current role of Professor at the Department of Chemistry in 2011.
His general research interests include the fundamental mechanistic understanding of interfacial processes and the development of novel electrosynthetic technologies based on nano-structures, three phase junctions, light- and microwave-enhanced processes, paired and self-supported electro-syntheses, and electro-catalytic reactor development.
To date he has 435 publications accredited to his name and a h-index of 51.
Dr. Mahito Atobe has been a Professor at the Graduate School of Environment and Information Sciences, Yokohama National University, since July 2010.
His current research focuses on organic electrosynthetic processes and electrochemical polymerization under ultrasonication, electrosynthetic processes in a flow microreactor, and organic electrochemical processes in supercritical fluids. He has 150 publications credited to his name so far.