Issue 9, 2016
From the journal:

Journal of Materials Chemistry A

Novel aramid nanofiber-coated polypropylene separators for lithium ion batteries

Shengyu Hu,abcd   Shudong Lin,abcd   Yuanyuan Tu,acd   Jiwen Hu,*abcd   Yan Wu,abc   Guojun Liu,abe   Fei Li,abcd   Fameng Yuabc  and  Tingting Jiangabc  

* Corresponding authors

a Guangzhou Institute of Chemistry, Chinese Academy of Sciences, Guangzhou, P. R. China
E-mail: hjw@gic.ac.cn
Fax: +86 20 85232307

b University of Chinese Academy of Sciences, No. 19A, Yuquan Road, Beijing, P. R. China

c Key Laboratory of Cellulose and Lignocellulosics Chemistry, Chinese Academy of Sciences, P. R. China

d Guangdong Provincial Key Laboratory of Organic Polymer Materials for Electronics, P. R. China

e Department of Chemistry, Queen's University, 90 Bader Lane, Kingston, Ontario, Canada

Abstract

Aramid nanofiber (ANF)-coated separators were successfully prepared by the dip-coating of a cationized polypropylene (PP) porous separator in an ANF dispersion in DMSO. The ANFs were successfully coated onto the surface of the cationized PP separator as demonstrated by FT-IR and XPS measurements and the ANFs could be directly observed on the surface of the composite separator via SEM and AFM. The ANF-based coating layers became more uniform and denser as more dip-coating cycles were employed. The gas permeabilities of the separators were strongly influenced by the concentrations of the ANF dispersion and the number of dip-coating cycles. The porosity decreased and a narrower pore size distribution was obtained after the ANFs were coated onto the cationized PP separator. The ANF-coated separators were found to exhibit higher dimensional stabilities than the pristine PP separator. The separators exhibited almost identical endothermic peaks in the DSC experiment and a similar shrink temperature in the DMA experiment but the ANF-coated separator exhibited a higher rupture temperature. The ANF-coated separator retained a comparable mechanical strength with that of the pristine PP separator. The ANF coating layer was mechanically stable and durable in the electrolyte. The ANF-coated separator exhibited comparable C-rate performance and cycling performance in LMO/Li cell systems to that of the PDA–PP separator, and showed significantly better C-rate performance and cycling performance than that of the pristine PP separator. The ANF-coated PP separators exhibited improved safety in a hot oven test in comparison with the pristine PP separator. Thus the ANF-coated separators have great potential for use in lithium ion batteries.

Graphical abstract: Novel aramid nanofiber-coated polypropylene separators for lithium ion batteries

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Article information

DOI
https://doi.org/10.1039/C5TA08694A
Article type
Paper
Submitted
28 Oct 2015
Accepted
27 Jan 2016
First published
27 Jan 2016

J. Mater. Chem. A, 2016,4, 3513-3526

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Novel aramid nanofiber-coated polypropylene separators for lithium ion batteries

S. Hu, S. Lin, Y. Tu, J. Hu, Y. Wu, G. Liu, F. Li, F. Yu and T. Jiang, J. Mater. Chem. A, 2016, 4, 3513 DOI: 10.1039/C5TA08694A

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