Flower-like SnS2 composite with 3D pyrolyzed bacterial cellulose as the anode for lithium-ion batteries with ultralong cycle life and superior rate capability

Xuejiao Liu; Shixiong Li; Jiantao Zai; Ying Jin; Peng Zhan; Yong Huang; Xiaoyong Tie; Rongrong Qi; Xuefeng Qian

doi:10.1039/C8DT03834A

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Flower-like SnS₂ composite with 3D pyrolyzed bacterial cellulose as the anode for lithium-ion batteries with ultralong cycle life and superior rate capability†

Xuejiao Liu,^a Shixiong Li,^a Jiantao Zai,

^a Ying Jin,^b Peng Zhan,^b Yong Huang,^b Xiaoyong Tie,^c Rongrong Qi*^a and Xuefeng Qian

*^a

Author affiliations

* Corresponding authors

^a Shanghai Electrochemical Energy Devices Research Center, School of Chemistry and Chemical Engineering and State Key Laboratory of Metal Matrix Composites, Shanghai Jiao Tong University, Shanghai 200240, China
E-mail: xfqian@sjtu.edu.cn, rrqi@sjtu.edu.cn

^b ZhongTian Emerging Materials Co. Ltd, Nantong, China

^c Hubei Land Resources Vocational College, Wuhan, P. R. China

Abstract

The enormous volume expansion during cycling and poor electron conductivity of SnS₂ limit its cycling stability and high rate capability. Herein, flower-like SnS₂ anchored on 3D carbon nanofiber structures were designed and synthesized by a simple hydrothermal method. Pyrolyzed bacterial cellulose as 3D carbon nanofibers can not only offer a continuous pathway of Li⁺ and electrons, but can also migrate the serious volume change of SnS₂ during charging and discharging. The obtained composite shows a specific capacity of 408.8 mA h g⁻¹ even after 1500 cycles at 10 A g⁻¹, and almost no specific capacity decay after 20 cycles with a retention of 97.5%.

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Article information

DOI: https://doi.org/10.1039/C8DT03834A
Article type: Communication
Submitted: 22 Sep 2018
Accepted: 26 Nov 2018
First published: 27 Nov 2018

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Dalton Trans., 2019,48, 833-838

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Flower-like SnS₂ composite with 3D pyrolyzed bacterial cellulose as the anode for lithium-ion batteries with ultralong cycle life and superior rate capability

X. Liu, S. Li, J. Zai, Y. Jin, P. Zhan, Y. Huang, X. Tie, R. Qi and X. Qian, Dalton Trans., 2019, 48, 833 DOI: 10.1039/C8DT03834A

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