Hostname: page-component-8448b6f56d-mp689 Total loading time: 0 Render date: 2024-04-24T02:05:43.251Z Has data issue: false hasContentIssue false
  • English
  • Français

Some Battery Applications of Solid Electrolytes in Japan

Published online by Cambridge University Press:  28 February 2011

Takehiko Takahashi
Takehiko Takahashi*
Affiliation:
Professor Emeritus of Nagoya University Guest Professor of Aichi Institute of Technology 2-106 Umemorizaka-Nishi, Meito-Ku. Nagoya, 465, Japan
Get access

Abstract

In Japan, some micro-batteries using solid electrolytes, such as silver ion, copper ion and lithium ion conductors are now under development for applying them to micro-devices, integrated-circuits and very-large-scaleintegration. For these purposes, inorganic crystalline and glassy electrolytes as well as polymeric electrolytes have been developed. For electric energy storage batteries, sodium ion conductors such as beta- or beta"- alumina have been developed as the electrolyte. A 1 MW sodium-sulfur battery demonstration power plant is to be constructed in Japan by the fall of 1991. To the fuel cell applications, oxide ion conductors or hydrogen ion conductors have chiefly been tried to be used, though solid electrolyte fuel cells are now at an early stage of development in Japan. Further, an AMTEC system for thermal energy to electrical energy conversion using beta•- alumina is under development in Japan. In this review paper, these battery applications of solid electrolytes in Japan are described briefly.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 210: Symposium L – Solid State Ionics II , 1990 , 3
Copyright
Copyright © Materials Research Society 1991

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

[1] Takada, K., Kanbara, t., Yamamura, Y. and Kondo, S., Denki Kagaku 58, 91 (1990).Google Scholar
[2] Kanno, R., Takeda, Y., Oda, Y., Ikeda, H. and Yamamoto, O., Solid State Ionics 18/19, 1068 (1986).Google Scholar
[3] Takahashi, T., Kanno, R., Takeda, Y. and Yamamoto, O., 3/4,283 (1981).CrossRefGoogle Scholar
[4] Kuwabara, K., Nunome, J. and Sugiyama, K., J. Electrochem. Soc. 137, 2001 (1990).Google Scholar
[5] Sotomura, T., Kondo, S. and Iwaki, T., Prog. Batteries Sol. Cells 8, 163 (1989); (private communication).Google Scholar
[6] Esaka, T. and Iwahara, H., 8, 113 (1989).Google Scholar
[7] Kanehori, K., Matsumoto, K., Miyauchi, K. and Kudo, T., Solid State Ionics 9/10, 1445 (1983).CrossRefGoogle Scholar
[8] Ohtsuka, H. and Yamaki, J., Prog. Batteries Sol. Cells 8, 108 (1989).Google Scholar
[9] Ogumi, Z., Uchimoto, Y., Takehara, Z. and Kanamori, Y., J. Electrochem. Soc. 135,2649 (1988); 136, 625 (1989); 137, 29 & 35 (1990).Google Scholar
[10] Takehara, Z.,Z. Ogumi and Uchimoto, Y., Ext. Abst. Electrochem. Soc. Fall Meeting, Seattle, Oct. 14-19 (1990), p. 46.Google Scholar
[11] Nakacho, Y., Tada, Y., Inubushi, A., Masuda, S. and Taniguchi, M., Ext. Abst. Battery Symp. Japan, 29, 205 (1988).Google Scholar
[12] Anon, Nikkei Sangyo, July 28 (1990).Google Scholar
[13] Kunimoto, A., Kagawa, H., Matsui, K., Nomura, E., Takashima, K. and Kita, A., Yuasa-Jiho 68, 11 (1990); (private communication).Google Scholar
[14] Tanemura, K. and Umemura, F., Denki Kagaku 58, 896 (1990).Google Scholar
[15] Umemura, F., Ota, H., Asano, K., Kaneko, S., Gengo, T., Uchida, S., Murakami, N. and Notomi, A., Proc. SOFC-Nagoya, JFCC, Nagoya, Nov. 13-14 (1989), p. 15.Google Scholar
[16] Ishizaki, F., Yoshida, T. and Sakurada, S., (1989), p. 101.Google Scholar
[17] Iwahara, H., (1989), p. 147.Google Scholar
[18] Yamashita, K., Owada, H., Umegaki, T., Kanazawa, T. and Katayama, K., (1989), p. 161.Google Scholar
[19] Masuda, T., Negishi, A., Tanaka, K. and Honda, T., Trans. IEE Japan 110–B, 147 (1990).Google Scholar
[20] Tanaka, K., Masuda, T., Negishi, A., Honda, T., Hori, Y. and Homma, T., Proc. IECEC, 25, Vol. 2, 402 (1990).Google Scholar