Paper Titles

Pyrolysis Kinetics of Oil Shale and its Kerogen
p.236

Research and Development of Agent for Collecting Aluminum Dross
p.241

Research on Migration of Lead in Food Wrap Paper
p.245

Research on the Application Status of Giant Magnetostrictive Material in Drive Field
p.249

Application Progress of Rare Earth Doping in Solid Electrolyte of Lithium Ion Battery
p.253

Fabrication and Photoelectric Properties of La-Doped ZnO Nanofibers via Electrospinning
p.257

Effect of Moisture on Physicochemical Properties of Cellulose Studied by Molecular Dynamics
p.261

Influence of Niobium Addition in Iridium on High Temperature Plasticity
p.267

Preparation and Detection of the Resolution and Number of Theoretical Plates for High Purity Steviosides
p.270

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 733Application Progress of Rare Earth Doping in Solid...

Application Progress of Rare Earth Doping in Solid Electrolyte of Lithium Ion Battery

Article Preview

Abstract:

The development trend of all solid state lithium ion battery and the importance of lithium ion solid electrolyte in all solid state lithium ion batteries is introduced in this paper. The application of rare earth doping in solid electrolyte of lithium ion battery is summarized. We suggest that rare earth doping is favorable for the increase of the lithium ion battery electrolyte conductivity, thus it is beneficial to further improve the overall performance of all solid state lithium ion battery. The development prospect of rare earth doping in solid electrolyte of all solid state lithium ion battery is looked forward. In addition, we deem that the above mentioned technology is an important research aspect of solid state electrolyte.

You might also be interested in these eBooks

Engineering Decisions for Industrial Development

Info:

Periodical:

Applied Mechanics and Materials (Volume 733)

Pages:

253-256

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.733.253

Citation:

Cite this paper

Online since:

February 2015

Authors:

Wen Long Li, Bin Guo, Wei Jie Hu, Ming De Chen, Hong Zhang, Hao Jing Wang*

Keywords:

Lithium Ion Battery, Rare Earth Doping, Solid Electrolyte

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2015 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

* - Corresponding Author

[1] Xu Xiaoxiong, Qiu Zhijun, Guan Yibiao, Huan Zheng and Jin Yi: Energy Storage Science and Technology, Vol. 2 (2013) No. 4, p.331.

[2] Suzuki T, Yoshida K, Uematsu K et al.: Solid Stote Ionics, Vol. 89 (1998) No. 3, p.113.

[3] Xiong Wei, Yan Huizhong, Zhao Zengqi et al. Chinese Rare Earths, Vol. 24 (2003) No. 2, p.57.

[4] U.V. Alpen, A. Rabenau and G.H. Talat: Appl. Phys. Lett, Vol. 30 (1977) No. 7, p.621.

[5] R. Mercier, J.P. Malugani, B. Fahys and G. Robert: Solid State Ionics, Vol. 663 (1981) No. 5, p.223.

DOI: 10.1016/0167-2738(81)90341-6

[6] Brous J, Fankuchen I, Banks E.: Acta Cryst, Vol. 6 (1953) No. 1, p.67.

[7] Inaguma, Yoshiyuki, Chen Liquan and Mitsuru Itoh: Solid State Communications, Vol. 86 (1993) No. 10, p.689.

[8] Fourquet J L, Durov H and Crosnier-Lopez M P: Journal of Solid State Chemistry, Vol. 127 (1996) No. 2, p.283.

[9] Y. Inaguma, L. Chen, M. Itoh and T. Nakamura, Solid State Ionics, Vol. 196 (1994) No. 12, p.70.

[10] M. Itoh, Y. Inaguma, W. -H. Jung, L. Chen and T. Nakamura, Solid State Ionics, Vol. 203 (1994) No. 6, p.70.

[11] Mizumoto K, Hayashi S: Solid Siate tonics, Vol. 116 (1999) No. 1, p.263.

[12] H.Y. -P. Hong: Mater. Res. Bull., Vol. 13 (1978) No. 8, p.117.

[13] H. Aono, E. Sugimoto, Y. Sadaoka, N. Imanaka and G. Adachi: Bull. Chem. Soc. Jpn., Vol. 65 (1992) No. 5, p.2200.

[14] H. Aono, N. Imanaka and G. Adachi: Acc. Chem. Res., Vol. 27 (1994) No. 2, p.265.

[15] G. Adachi, N. Imanaka and H. Aono: Advanced Materials, Vol. 8 (1996) No. 7, p.127.

[16] Yamamoto H, Tabuchi M, Takeuchi T et al.: Journal of PowerSources, Vol. 68 (1997) No. 1, p.397.

[17] Chai Yujun, Song Xiuqin: Chinese Journal of Rare Metals, Vol. 26 (2002) No. 1, p.59.

[18] Aono H, Sugimoto E.: Journal of Electrochemical Society, Vol. 136 (1989) No. 2, p.590.

[19] Aono H, Sugimoto E.: Solid State tonics, Vol. 40 (1990) No. 1, p.38.

[20] Thangadurai V, Kaack H, Weppner W J F.: Journal of the American Ceramic Society, Vol. 86 (2004) No. 3, p.437.

[21] Cussen Edmund J.: Chem Commun, Vol. 37 (2006) No. 15, p.412.

[22] Murugan R, Thangadurai V and Weppner W.: Angewandte Chemie, Vol. 46 (2007) No. 41, p.7778.

[23] Awaka Junji, Kijima Norihito, Hayakawa Hiroshi, et al.: Solid State Chem, Vol. 182 (2009) No. 8, p.20.