Nanoscale Technology for Advanced Lithium Batteries (eBook)
VIII, 273 Seiten
Springer New York (Verlag)
978-1-4614-8675-6 (ISBN)
The unfortunate and serious accident at the nuclear power plants in Fukushima, Japan caused by the earthquake and tsunami in March 2011 dealt Japan a serious blow. Japan was nearly deprived of electric power when in response to the accident all nuclear reactors in Japan were shut down. This shortage further accelerated the introduction of renewable energies. This book surveys the new materials and approaches needed to use nanotechnology to introduce the next generation of advanced lithium batteries, currently the most promising energy storage devices available. It provides an overview of nanotechnology for lithium batteries from basic to applied research in selected high technology areas. The book especially focuses on near-term and future advances in these fields. All contributors to this book are expert researchers on lithium batteries.
Professor Tetsuya Osaka is a professor in the Department of Applied Chemistry, Waseda University, Tokyo, Japan - a position he has held since 1986. He has contributed as an author and/or editor of more than 70 books and published more than 890 original and review papers in these fields. He has been identified as one of the Highly Cited Researchers in the Materials Science category on the website of Thomson Scientific's ISIHighlyCited.com. Ogumi's technical contributions have been recognized by many awards including Medal with Purple Ribbon bestowed from the Decoration Bureau of the Cabinet Office, Japan . He received Research Award of the Electrodeposition Division of ECS in 1996 and was elected a Fellow of ECS (2002), IEEE (2002), IUPAC (2004) and ISE (2006).
Professor Zempachi Ogumii is an Adjunct Professor of the Innovative Collaboration Center at Kyoto University, Kyoto, Japan. He graduated from Kyoto University in 1968 and received his Doctorate Degree from the Graduate School of Engineering, Kyoto University in 1974. After a short time in the industry, he became a research associate at the Fritz-Haber Institute of Max-Planck Foundation in Berlin from 1975 to 1976. In 1976, he joined Kyoto University and worked there until 1992 as a professor for the Graduate School of Engineering. In addition to teaching at Kyoto University, Ogumi is also a visiting professor of Waseda University and has published over 300 scientific papers on batteries, fuel cells, and electrolysis.
The unfortunate and serious accident at the nuclear power plants in Fukushima, Japan caused by the earthquake and tsunami in March 2011 dealt Japan a serious blow. Japan was nearly deprived of electric power when in response to the accident all nuclear reactors in Japan were shut down. This shortage further accelerated the introduction of renewable energies. This book surveys the new materials and approaches needed to use nanotechnology to introduce the next generation of advanced lithium batteries, currently the most promising energy storage devices available. It provides an overview of nanotechnology for lithium batteries from basic to applied research in selected high technology areas. The book especially focuses on near-term and future advances in these fields. All contributors to this book are expert researchers on lithium batteries.
Professor Tetsuya Osaka is a professor in the Department of Applied Chemistry, Waseda University, Tokyo, Japan - a position he has held since 1986. He has contributed as an author and/or editor of more than 70 books and published more than 890 original and review papers in these fields. He has been identified as one of the Highly Cited Researchers in the Materials Science category on the website of Thomson Scientific’s ISIHighlyCited.com. Ogumi's technical contributions have been recognized by many awards including Medal with Purple Ribbon bestowed from the Decoration Bureau of the Cabinet Office, Japan . He received Research Award of the Electrodeposition Division of ECS in 1996 and was elected a Fellow of ECS (2002), IEEE (2002), IUPAC (2004) and ISE (2006).Professor Zempachi Ogumii is an Adjunct Professor of the Innovative Collaboration Center at Kyoto University, Kyoto, Japan. He graduated from Kyoto University in 1968 and received his Doctorate Degree from the Graduate School of Engineering, Kyoto University in 1974. After a short time in the industry, he became a research associate at the Fritz-Haber Institute of Max-Planck Foundation in Berlin from 1975 to 1976. In 1976, he joined Kyoto University and worked there until 1992 as a professor for the Graduate School of Engineering. In addition to teaching at Kyoto University, Ogumi is also a visiting professor of Waseda University and has published over 300 scientific papers on batteries, fuel cells, and electrolysis.
Chapter. 1.
Energy systems for green community -The role of energy conversion and storage-
Zempachi. Ogumi (Kyoto University)
Chapter. 2.
Positive electrodes of Nano-scale for lithium ion batteries (Focusing on nano-size effects)
Jun-ichi Yamaki (Institute for Materials Chemistry and Engineering, Kyushu University)
Chapter. 3.
Nano-aspects of Advanced Positive Electrodes for Lithium Ion Batteries
Kuniaki Tatsumi (Research Institute for Ubiquitous Energy Devices
National Institute of Advanced Industrial Science and Technology (AIST))
Chapter. 4.
Nano-aspects of Carbon Negative Electrodes for Li ion Batteries
Takeshi Abe and Zempachi Ogumi (Kyoto Univeristy)
Chapter. 5.
Advanced negative electrodes of Nano-scale for Li ion batteries
Toshiyuki Momma and Tetsuya Osaka (Waseda Univesity)
Chapter. 6.
Polymer and Ionic Liquid Electrolytes for Advanced Lithium Batteries
Shiro Seki (Materials Science Research Laboratory) and Masayoshi Watanabe (Yokohama National University)
Chapter. 7.
Development of glass-based solid electrolytes for lithium ion batteries
Masahiro Tatsumisago and Akitoshi Hayashi (Department of Applied Chemistry, Faculty of Engineering, Osaka Prefecture University)
Chapter. 8.
3DOM Structure for Battery Electrode and Electrolyte
Kiyoshi Kanamura (Department of Applied Chemistry, Tokyo Metropolitan University)
Chapter. 9.
DC methods for Battery evaluation
M. Hirayama and R. Kanno (Tokyo Institute of Technology)
Chapter. 10.
Characterization of neighbor atoms (X-ray adsorption) (Covering wide area of XAFS and XANES)
Yoshiharu Uchimoto (Kyoto University)
Chapter. 11.
AC methods for Battery evaluation
M. Itagaki (Tokyo University of Science)
Chapter. 12.
NMR Study of Lithium Ion Battery
M. Murakami (Kyoto University), Yoshiki Iwai, Junichi Kawamura (Tohoku Univeristy)
Chapter. 13.
Nano-aspect of Vibration Spectra Methods in Lithium-ion Batteries
C.M. Julien and A. Mauger (Université Pierre et Marie Curie - Paris 6)
Chapter. 14.
Nano-aspects of Metal Air Batteries
Hajime Arai and Takayuki Doi (Office of Society-Academia Collaboration for Innovation Center for Advanced Science and Innovation, Kyoto University)
Chapter. 15.
Lithium/Air Battery
Tao Zhang and Nobuyuki Imanishi (Mie University)
Chapter. 16.
Nano-Aspects of Lithium/Sulfur Batteries
Ho-Suk Ryu, Hyo-Jun Ahn, Ki-Won Kim, Jou-Hyeon Ahn (WCU and PRC of Gyeongsang National University)
Chapter. 17.
Possibility and Prospect for Future Energy Storages
Tetsuya Osaka and Hiroki Nara (Waseda University)
Erscheint lt. Verlag | 11.11.2013 |
---|---|
Reihe/Serie | Nanostructure Science and Technology | Nanostructure Science and Technology |
Zusatzinfo | VIII, 273 p. 175 illus., 79 illus. in color. |
Verlagsort | New York |
Sprache | englisch |
Themenwelt | Naturwissenschaften ► Chemie ► Physikalische Chemie |
Technik | |
Schlagworte | batteries • Li-ion batteries • Lithium • Lithium Ion • Secondary Batteries |
ISBN-10 | 1-4614-8675-0 / 1461486750 |
ISBN-13 | 978-1-4614-8675-6 / 9781461486756 |
Haben Sie eine Frage zum Produkt? |
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