Issue 85, 2017
From the journal:

RSC Advances

Synthesis of high rate capability N-doped carbon coated on lithium zinc titanate via a surfactant-assisted solid-state route

Zhaohui Meng,*a   Song Wang,a   Xinfeng Chen,a   Lijuan Wang ORCID logo *a  and  Fei Wang ORCID logo b  

* Corresponding authors

a College of Chemistry and Pharmaceutical Engineering, Nanyang Normal University, Nanyang 473061, China
E-mail: lijuanw123@163.com, nysymengzhaohui@126.com
Fax: +86-377-63168316
Tel: +86-377-63513540

b School of Chemistry and Materials Science, Huaibei Normal University, Huaibei, Anhui 235000, China

Abstract

N-doped carbon coated on a Li2ZnTi3O8 (LZTO@C–N) anode has been successfully synthesized via a simple surfactant-assisted solid-state method using Tween 80 as surfactant, gelatin as nitrogen source, gelatin and Tween 80 as composite carbon source, and ammonium oxalate as pore-foaming agent. It is shown that nano-sized LZTO particles (∼30 nm) are coated with a carbon layer. The N-doped carbon greatly benefits the electrochemical performance of LZTO@C–N. The largest capacities of 205.4, 193.1, 174.8 and 164.9 mA h g−1 are delivered at 2, 3, 5 and 6 A g−1, respectively. 193.2, 183.2, 159.6 and 139.9 mA h g−1 are still kept at the 100th cycle, respectively. The good electrochemical performance of the LZTO@C–N electrode at high current densities is due to its large specific surface area and pore size, small particle size, low charge-transfer resistance, high Li+ diffusion coefficient and the existence of N-doped carbon.

Graphical abstract: Synthesis of high rate capability N-doped carbon coated on lithium zinc titanate via a surfactant-assisted solid-state route

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Article information

DOI
https://doi.org/10.1039/C7RA10969E
Article type
Paper
Submitted
05 Oct 2017
Accepted
21 Nov 2017
First published
27 Nov 2017
This article is Open Access
Creative Commons BY license

RSC Adv., 2017,7, 54258-54265

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Synthesis of high rate capability N-doped carbon coated on lithium zinc titanate via a surfactant-assisted solid-state route

Z. Meng, S. Wang, X. Chen, L. Wang and F. Wang, RSC Adv., 2017, 7, 54258 DOI: 10.1039/C7RA10969E

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