Issue 44, 2016
From the journal:

Dalton Transactions

Template-free synthesis of ordered ZnO@ZnS core–shell arrays for high performance supercapacitors

Hailong Yan,ab   Tong Li,ab   Yang Lu,ab   Jinbing Cheng,ab   Tao Peng,ab   Jinyou Xu,ab   Linying Yang,ab   Xiangqiang Hua,ab   Yunxin Liuc  and  Yongsong Luo*ab  

* Corresponding authors

a School of Physics and Electronic Engineering, Xinyang Normal University, Xinyang 464000, P. R. China
E-mail: eysluo@163.com

b Key Laboratory of Advanced Micro/Nano Functional Materials, Xinyang Normal University, Xinyang 464000, P. R. China

c Department of Physics and Electronic Science, Hunan University of Science and Technology, Xiangtan 411201, China

Abstract

In this article, ordered ZnO@ZnS core–shell structures have been produced on a stainless mesh by a two-step approach without using a template. ZnO nanorods fabricated by a chemical vapor method are transferred into a 50 ml autoclave for a second stage ion-exchange reaction followed by heating at 120 °C for 4–16 h. The ZnO core is prepared as the conducting channel and ZnS as the active material. Such unique architecture exhibits remarkable electrochemical performance with high capacitance and desirable cycle life. When evaluating as the electrode for supercapacitors, the ZnO@ZnS core–shell structure delivers a high specific capacitance of 603.8 F g−1 at a current density of 2 A g−1, with 9.4% capacitance loss after cycling 3000 times. The fabrication strategy presented here is simple and cost-effective, which can open new avenues for large-scale applications of the novel materials in energy storage.

Graphical abstract: Template-free synthesis of ordered ZnO@ZnS core–shell arrays for high performance supercapacitors

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Article information

DOI
https://doi.org/10.1039/C6DT03435G
Article type
Paper
Submitted
04 Sep 2016
Accepted
12 Oct 2016
First published
13 Oct 2016

Dalton Trans., 2016,45, 17980-17986

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Template-free synthesis of ordered ZnO@ZnS core–shell arrays for high performance supercapacitors

H. Yan, T. Li, Y. Lu, J. Cheng, T. Peng, J. Xu, L. Yang, X. Hua, Y. Liu and Y. Luo, Dalton Trans., 2016, 45, 17980 DOI: 10.1039/C6DT03435G

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