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926283 
Journal Article 
Composite nonwoven separator for lithium-ion battery: Development and characterization 
Cho, TH; Tanaka, M; Ohnishi, H; Kondo, Y; Yoshikazu, M; Nakamura, T; Sakai, T 
2010 
Yes 
Journal of Power Sources
ISSN: 0378-7753 
ELSEVIER SCIENCE BV 
AMSTERDAM 
195 
13 
4272-4277 
English 
WOS:000276764600043 
A new type composite nonwoven separator has been developed by combining a polyacrylonitrile (PAN) nano-fiber nonwoven and ceramic containing polyolefin nonwoven. The physical, electrochemical and thermal properties of the separator were investigated. The separator has mean pore size of about 0.8 mu m as well as narrow pore-size distribution. Besides, the separator possesses higher porosity and air permeability than a conventional microporous membrane separator. The separator showed tensile strength of 46 N 5 cm(-1) at 10% elongation. Any internal short circuit was not observed for cells with the separator during charge-discharge test, and the cells showed stable cycling performance. Moreover, the cells showed better rate capabilities than cells with the conventional one. On a hot oven test at 150 degrees C, the composite nonwoven separator showed better thermal stability than the conventional one. In addition. internal short circuit by thermal shrinkage of separator was not observed for a cell with the separator at 150 degrees C for 1 h. (C) 2010 Elsevier B.V. All rights reserved. 
Ceramic Abstracts/World Ceramics Abstracts (WC); Mechanical & Transportation Engineering Abstracts (MT); Environmental Engineering Abstracts (EN); Electronics and Communications Abstracts (EA); CSA / ASCE Civil Engineering Abstracts (CE); Shrinkage; Nanomaterials; Short circuits; Porosity; Nanostructure; Thermal properties; Separators