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| Electrochemically Enabled Sustainability: Devices, Materials and Mechanisms for Energy Conversion
ISBN: 9780429072109
Platform/Publisher: Taylor & Francis / CRC Press
Digital rights: Users: Unlimited; Printing: Unlimited; Download: Unlimited
Subjects: Engineering & Technology; Physical Sciences; Power & Energy; Chemistry; Energy & Fuels; Physical Chemistry;
Electrochemically Enabled Sustainability: Devices, Materials and Mechanisms for Energy Conversion covers topics related to current research in electrochemical power sources, highlighting some of the latest concepts in electrochemical conversion for sustainability. The book examines the most recent and innovative technologies employed in battery and
Kwong-Yu Chan, Ph.D., joined the Department of Chemistry, University of Hong Kong in 1988 and was promoted to full professor in 2002. Professor Chan has fundamental and applied research activities in molecular simulation, fuel cells, materials, and electrochemical applications. He has published over 150 papers and is a top 1 percent cited scientist, according to ISI's Essential Science Indicators . Professor Chan has five inventions on the topics of fuel cells, ozone generation, and batteries.
Chi-Ying Vanessa Li, Ph.D. , joined the Department of Chemistry, University of Hong Kong, as a postdoctoral fellow in 2009. Dr. Li's current work focuses on electrochemistry and catalysis. Her research interests include anode materials on lithium batteries, flow batteries, and MOFs (metal-organic frameworks) for catalytic applications. She has published over 20 articles in various peer-reviewed journals. |
