Issue 15, 2020, Issue in Progress
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RSC Advances

Ultra-thin NiS nanosheets as advanced electrode for high energy density supercapacitors

Hailong Yan,ab   Kejia Zhu,ab   Xu Liu,ab   Yinghui Wang,ab   Yangbo Wang,ab   Deyang Zhang,ab   Yang Lu, ORCID logo ab   Tao Peng,ab   Yunxin Liu ORCID logo c  and  Yongsong Luo ORCID logo *ab  

* Corresponding authors

a School of Physics and Electronic Engineering, Xinyang Normal University, Xinyang 464000, P. R. China
E-mail: eysluo@163.com
Fax: +86 376 6390801
Tel: +86 376 6390801

b Key Laboratory of Microelectronics and Energy of Henan Province, 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

Low energy density of supercapacitors is one of the major downsides for their practical applications. Here, a simple hydrothermal method was developed to synthesize NiS nanosheets on Ni foam. NiS nanosheets with a rough surface promise large electroactive surface area for energy storage, and show an ultra-high capacitance of 2587 F g−1 at a scan rate of 0.2 A g−1 (corresponding to the discharge time of 5563 s). The NiS nanosheets also present an outstanding cycling stability of 95.8% after 4000 cycles. As a positive electrode material for hybrid supercapacitors (HSC), NiS nanostructures provide a broad voltage window of 1.7 V. Our device also shows a high energy density of 38 W h kg−1 at a power density of 1.5 kW kg−1.

Graphical abstract: Ultra-thin NiS nanosheets as advanced electrode for high energy density supercapacitors

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Article information

DOI
https://doi.org/10.1039/C9RA09486E
Article type
Paper
Submitted
14 Nov 2019
Accepted
10 Feb 2020
First published
28 Feb 2020
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2020,10, 8760-8765

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Ultra-thin NiS nanosheets as advanced electrode for high energy density supercapacitors

H. Yan, K. Zhu, X. Liu, Y. Wang, Y. Wang, D. Zhang, Y. Lu, T. Peng, Y. Liu and Y. Luo, RSC Adv., 2020, 10, 8760 DOI: 10.1039/C9RA09486E

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