Hydrothermal growth of MnO2/RGO/Ni(OH)2 on nickel foam with superior supercapacitor performance

Shudi Min; Chongjun Zhao; Zhuomin Zhang; Kun Wang; Guorong Chen; Xiuzhen Qian; Zaiping Guo

doi:10.1039/C5RA10842J

Hydrothermal growth of MnO₂/RGO/Ni(OH)₂ on nickel foam with superior supercapacitor performance†

Shudi Min,^ab Chongjun Zhao,*^a Zhuomin Zhang,^a Kun Wang,^a Guorong Chen,^a Xiuzhen Qian^a and Zaiping Guo*^b

* Corresponding authors

^a School of Materials Science and Engineering, East China University of Science and Technology, Shanghai 200237, P.R. China
E-mail: chongjunzhao@ecust.edu.cn
Fax: +86-21-6425-0838
Tel: +86-21-6425-0838

^b Institute for Superconducting and Electronic Materials, University of Wollongong, Wollongong, NSW 2522, Australia
E-mail: zguo@uow.edu.au
Fax: +61 2 4221 5731
Tel: +61 2 4221 5731

Abstract

A MnO₂/reduced graphene oxide (RGO)/Ni(OH)₂ composite with arrays of mushroom-headed needle-like nanostructures on its top surface was designed and directly grown on nickel foam through a one-pot hydrothermal process without the addition of any source of extra Ni ions. Based on the redox reaction of elemental Ni and graphene oxide (GO), along with electrostatic forces between Mn ions from the solution and GO, there was good contact and strong interaction between the different components, as well as between the active materials and the Ni substrate. Hence, the as-synthesized MnO₂/RGO/Ni(OH)₂ composite can be utilized as a supercapacitor electrode with a high areal mass loading of 5.4 mg cm⁻². It exhibits superior performance: 17.8 F cm⁻² (i.e., 3296.9 F g⁻¹) at 7 mA cm⁻² (1.3 A g⁻¹), as well as a capacity retention of 90.2%, even after 5000 cycles at 20 mA cm⁻² (3.7 A g⁻¹).

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Article information

DOI: https://doi.org/10.1039/C5RA10842J
Article type: Communication
Submitted: 08 Jun 2015
Accepted: 14 Jul 2015
First published: 14 Jul 2015

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RSC Adv., 2015,5, 62571-62576

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Hydrothermal growth of MnO₂/RGO/Ni(OH)₂ on nickel foam with superior supercapacitor performance

S. Min, C. Zhao, Z. Zhang, K. Wang, G. Chen, X. Qian and Z. Guo, RSC Adv., 2015, 5, 62571 DOI: 10.1039/C5RA10842J

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