1st Edition
Electrochemical Energy Advanced Materials and Technologies
Electrochemical Energy: Advanced Materials and Technologies covers the development of advanced materials and technologies for electrochemical energy conversion and storage. The book was created by participants of the International Conference on Electrochemical Materials and Technologies for Clean Sustainable Energy (ICES-2013) held in Guangzhou, China, and incorporates select papers presented at the conference.
More than 300 attendees from across the globe participated in ICES-2013 and gave presentations in six major themes:
- Fuel cells and hydrogen energy
- Lithium batteries and advanced secondary batteries
- Green energy for a clean environment
- Photo-Electrocatalysis
- Supercapacitors
- Electrochemical clean energy applications and markets
Comprised of eight sections, this book includes 25 chapters featuring highlights from the conference and covering every facet of synthesis, characterization, and performance evaluation of the advanced materials for electrochemical energy. It thoroughly describes electrochemical energy conversion and storage technologies such as batteries, fuel cells, supercapacitors, hydrogen generation, and their associated materials. The book contains a number of topics that include electrochemical processes, materials, components, assembly and manufacturing, and degradation mechanisms. It also addresses challenges related to cost and performance, provides varying perspectives, and emphasizes existing and emerging solutions.
The result of a conference encouraging enhanced research collaboration among members of the electrochemical energy community, Electrochemical Energy: Advanced Materials and Technologies is dedicated to the development of advanced materials and technologies for electrochemical energy conversion and storage and details the technologies, current achievements, and future directions in the field.
OVERVIEW OF ELECTROCHEMICAL ENERGY STORAGE AND CONVERSION
Introduction to Electrochemical Energy Storage and Conversion
Jingmei Shen, Fang Dai, Mei Cai, and Hong Zhu
Advances in Electrochemical Energy Materials and Technologies
Hao Liu, Bing Sun, and Guoxiu Wang
Future Catalyst Approaches for Electrochemical Energy Storage and Conversion
Gang Wu and David P. Wilkinson
ADVANCED MATERIALS AND TECHNOLOGIES FOR LI-ION RECHARGEABLE BATTERIES
Advanced Materials for Li-Ion Batteries
Zhaoping Liu, Yonggao Xia, Wei Wang, Zhen Wei, Junli Shi, Lan Xia, Laifen Qin, and Shaojie Han
Advanced Technologies for Li-Ion Rechargeable Batteries
Qizheng Li and Xueliang Sun
Application of Lithium-Ion Batteries in Vehicle Electrification
Qiangfeng Xiao, Bing Li, Fang Dai, Li Yang, and Mei Cai
ADVANCED MATERIALS AND TECHNOLOGIES FOR METAL-AIR RECHARGEABLE BATTERIES
Advanced Materials for Zn-Air Rechargeable Batteries
Dong Un Lee, Jing Fu, and Zhongwei Chen
Advanced Materials for Li-Air Rechargeable Batteries
Hossein Yadegari and Xueliang Sun
Advanced Materials for Na-Air Batteries
Yongliang Li, Hossein Yadegari, Jianhong Liu, and Xueliang Sun
ADVANCED MATERIALS AND TECHNOLOGIES FOR LEAD-ACID RECHARGEABLE BATTERIES
Advanced Technologies for Lead-Acid Rechargeable Batteries
Jon L. Anderson
Lead-Acid Automotive Battery
Anson Lee and Jun Gou
ADVANCED MATERIALS AND TECHNOLOGIES FOR FUEL CELLS
Advanced Materials for High-Temperature Solid Oxide Fuel Cells (SOFCs)
Kuan-Zong Fung
Advanced Technologies for High-Temperature Solid Oxide Fuel Cells
Zhe LÜ, Bo Wei, and Zhihong Wang
Theoretical Modeling for Fundamental Understanding of High-Temperature Solid Oxide Fuel Cells
Zijing Lin
Advanced Membrane Materials for Polymer Electrolyte Membrane Fuel Cells
David Aili, Jens Oluf Jensen, and Qingfeng Li
Oxygen Reduction Non-PGM Electrocatalysts for PEM Fuel Cells—Recent Advances
Surya Singh, Anil Verma, and Suddhasatwa Basu
Advanced Technologies for Proton-Exchange Membrane Fuel Cells
Sivakumar Pasupathi, Huaneng Su, Huagen Liang, and Bruno G. Pollet
ADVANCED MATERIALS AND TECHNOLOGIES FOR SUPERCAPACITORS
Advanced Materials for Supercapacitors
Gaind P. Pandey, Yueping Fang, and Jun Li
Advanced Technologies for Supercapacitors
Hao Liu and Li-Min Liu
Supercapacitor’s Applications
Guoping Wang, Hongqing Wang, Benhe Zhong, Lei Zhang, and Jiujun Zhang
ADVANCED MATERIALS AND TECHNOLOGIES FOR LIQUID REDOX RECHARGEABLE BATTERIES
Advanced Materials for Liquid-Redox Flow Batteries
Jianlu Zhang, Jinfeng Wu, Lei Zhang, and Jiujun Zhang
Advanced Technologies for Liquid-Redox Rechargeable Batteries
Yuezhong Meng, Yufei Wang, Min Xiao, and Shuanjin Wang
Liquid-Redox Flow Battery Applications
Jinfeng Wu, Jianlu Zhang, and Jiujun Zhang
ADVANCED MATERIALS AND TECHNOLOGIES FOR WATER ELECTROLYSIS PRODUCING HYDROGEN
Advanced Materials for Water Electrolysis
Yongjun Leng and Chao-Yang Wang
Advanced Practical Technologies for Water Electrolysis
Zetian Tao, Lei Zhang, and Jiujun Zhang
Biography
Pei Kang Shen obtained his BSc in electrochemistry at Xiamen University in 1982. He received his PhD in chemistry at Essex University in 1992. From then on, he has been working at Essex University, Hong Kong University, the City University of Hong Kong, and the South China University of Technology. Since 2001, he has served as a professor and director of Advanced Energy Materials Research Laboratory at the Sun Yat-sen University, Guangzhou, China. He is the author of more than 300 publications. His research interests include fuel cells and batteries, electrochemistry of nanomaterials and nanocomposite functional materials, and electrochemical engineering.
Chao-Yang Wang is William E. Diefenderfer Chair in mechanical engineering and distinguished professor of mechanical engineering, chemical engineering, and materials science and engineering at the Pennsylvania State University. He has been the founding director of Penn State Electrochemical Engine Center since 1997. Dr. Wang holds several patents and has published two books. He has more than 12,000 Science Citation Index citations, an h-index of 65 (Web of Science), and is one of 187 highly cited researchers in engineering named by Thomas Reuter in 2014. His research interests cover the transport, materials, manufacturing, and modeling aspects of batteries and fuel cells.
San Ping Jiang obtained his BEng in ceramic materials from South China University of Technology in 1982 and PhD in electrochemistry from The City University, London, in 1988. He is a professor at the Department of Chemical Engineering, deputy director of Fuels and Energy Technology Institute, Curtin University, Australia, and adjunct professor at University of the Sunshine Coast, Australia. Dr. Jiang has authored and coauthored 10 book chapters and three books, and published approximately 270 journal papers. His research interests encompass solid oxide fuel cells, proton-exchange membrane and direct alcohol fuel cells, water electrolysis, solid-state ionics, electrocatalysis, and nanostructured functional materials.
Xueliang (Andy) Sun is a professor and Canada Research Chair (Tier I) for the development of nanomaterials for clean energy, at the University of Western Ontario, Canada. Dr. Sun received his PhD degree in materials chemistry at the University of Manchester, UK, in 1999. Then, he worked as a postdoctoral fellow in the University of British Columbia, Canada, during 1999–2001. He was a research associate at the National Institut de la Recherche Scientifique, Quebec, Canada, during 2001–2004. Dr. Sun’s research is focused on advanced nanostructured materials for energy conversion and storage, including fuel cells and Li batteries.
Jiujun Zhang is a principal research officer at the National Research Council of Canada and a fellow of the International Society of Electrochemistry. His expertise lies in electrochemistry, photoelectrochemistry, spectroelectrochemistry, electrocatalysis, fuel cells (polymer electrolyte membrane fuel cells, solid oxide fuel cells, and direct methanol fuel cells), batteries, and supercapacitors. Dr. Zhang received his BS and MSc in electrochemistry from Peking University in 1982 and 1985, respectively, and his PhD in electrochemistry from Wuhan University in 1988. He serves as the editor/editorial board member for several journals and as series book editor for Electrochemical Energy Storage and Conversion, CRC Press.
"It covers a wide range of topics in the area of electrochemical energy storage and conversion ... It can be used as a reference for courses on energy storage and conversion. It can also be used as a reference for researchers in the field of electrochemical energy storage and conversion."
—Meilin Liu, Georgia Institute of Technology, Atlanta, USA"This book is put together by an excellent team of editors who are leading scientists in the field of electrochemical energy storage and conversion, covering a wide spectrum from designing advanced materials to developing cutting-edge technologies in the field."
—Chuan-Jian Zhong, State University of New York, USA"This book is perhaps the most comprehensive collection of expert explanations and in-depth reviews of various electrochemical energy technologies and the associated materials… Having researched in the area of materials electrochemistry for over 30 years in both the UK and China, I have not yet seen a book as comprehensive and in-depth as this one in coverage… I therefore strongly recommend this book…"
—George Z. Chen, Department of Chemical and Environmental Engineering, University of Nottingham, UK"… an excellent review… good coverage … I appreciate the hard work from the authors…"
—Chinbay Q. Fan, R&D Director, Technology Extensions, Gas Technology Institute, USA"This single book is designed for most of [the] electrochemical energy conversion and storage technologies, not only for students, but also for those who are engaged in all energy technologies. This is [a] one-stop source for most of all, electrochemical energy technologies."
—Hasuck Kim, Daegu Gyeongbuk Institute of Science and Technology (DGIST), Korea