Cobalt-doping in hierarchical Ni3S2 nanorod arrays enables high areal capacitance

Qiang Chen; Jialun Jin; Zongkui Kou; Jiangmin Jiang; Yulu Fu; Ziang Liu; Liang Zhou; Liqiang Mai

doi:10.1039/D0TA04483K

Cobalt-doping in hierarchical Ni₃S₂ nanorod arrays enables high areal capacitance†

Qiang Chen,‡^ab Jialun Jin,‡^a Zongkui Kou,

^b Jiangmin Jiang,^b Yulu Fu,^ab Ziang Liu,^a Liang Zhou

*^ac and Liqiang Mai

^ac

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* Corresponding authors

^a State Key Laboratory of Advanced Technology for Materials Synthesis and Processing, Wuhan University of Technology, Wuhan 430070, P. R. China
E-mail: liangzhou@whut.edu.cn

^b Department of Materials Science and Engineering, National University of Singapore, Singapore

^c Foshan Xianhu Laboratory, Foshan 528216, Guangdong, China

Abstract

Areal capacitance is an important metrics for miniaturized capacitive energy storage devices due to the constraint of device area. In the present work, we proposed a free-standing hierarchical cobalt-doped Ni₃S₂ (Co-Ni₃S₂) nanorod arrays as a novel pseudocapacitive electrode to realize impressively high areal capacitance. With enhanced surface area donated by the introduction of cobalt, the Co-Ni₃S₂ nanorods exhibit an ultrahigh areal capacitance of 3.46 F cm⁻² at 8 mA cm⁻², which is more than three-fold over that of pristine Ni₃S₂. When coupled with an FeOOH anode, the fabricated Co-Ni₃S₂//FeOOH hybrid supercapacitor can deliver a large areal capacitance of 1.61 F cm⁻², a peak energy density of 0.73 mW h cm⁻², and a peak power density of 36.00 mW cm⁻². Besides, the as-fabricated hybrid supercapacitor also exhibits stable capacitive performance (83.5% capacity retention after 5000 cycles). The advanced and stable Co-Ni₃S₂ electrode developed in this work is highly desirable for micro supercapacitor devices.

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DOI: https://doi.org/10.1039/D0TA04483K
Article type: Paper
Submitted: 29 Apr 2020
Accepted: 15 Jun 2020
First published: 16 Jun 2020

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J. Mater. Chem. A, 2020,8, 13114-13120

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Cobalt-doping in hierarchical Ni₃S₂ nanorod arrays enables high areal capacitance

Q. Chen, J. Jin, Z. Kou, J. Jiang, Y. Fu, Z. Liu, L. Zhou and L. Mai, J. Mater. Chem. A, 2020, 8, 13114 DOI: 10.1039/D0TA04483K

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Journal of Materials Chemistry A

Cobalt-doping in hierarchical Ni₃S₂ nanorod arrays enables high areal capacitance†

Abstract

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Cobalt-doping in hierarchical Ni₃S₂ nanorod arrays enables high areal capacitance

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Journal of Materials Chemistry A