Bimetallic FeNi-MIL-88-derived NiFe2O4@Ni–Mn LDH composite electrode material for a high performance asymmetric supercapacitor

Shaobin Li; Jing Pan; Fengbo Li; Li Zhang; Dongfeng Chai; Zhuanfang Zhang; Jianjiao Xin

doi:10.1039/D0DT00251H

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Bimetallic FeNi-MIL-88-derived NiFe₂O₄@Ni–Mn LDH composite electrode material for a high performance asymmetric supercapacitor†

Shaobin Li,

*^a Jing Pan,^a Fengbo Li,^c Li Zhang,^a Dongfeng Chai,^b Zhuanfang Zhang

*^b and Jianjiao Xin^b

Author affiliations

* Corresponding authors

^a College of Materials Science and Engineering, Qiqihar University, Qiqihar 161006, China
E-mail: qqhrlsb1022@126.com, zzfhao2014@163.com

^b Center of Teaching Experiment Management Equipment, Qiqihar University, Qiqihar 161006, China

^c College of Chemical and Environmental Engineering, Harbin University of Science and Technology, Harbin 150040, China

Abstract

A simple continuous hydrothermal method was used to synthesize a NiFe₂O₄@Ni–Mn LDH/NF composite. The layered structure provides a large void to transfer the electron effectively, and the composite materials exhibit remarkable electrochemical performance including excellent specific capacitance (1265 F g⁻¹ at 1 A g⁻¹) and remarkable cycling stability (the specific capacitance remains at 80.9% after 5000 cycles). In addition, the asymmetric supercapacitor exhibits a high energy density of 96.2 W h kg⁻¹ at a power density of 700 W kg⁻¹, and there is an extraordinarily good cycling stability with a capacity retention rate of 92.5% after 4000 cycles. The outcomes indicate that the NiFe₂O₄@Ni–Mn LDH/NF composite electrode has potential application as a high-performance supercapacitor.

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Article information

DOI: https://doi.org/10.1039/D0DT00251H
Article type: Paper
Submitted: 22 Jan 2020
Accepted: 30 Jun 2020
First published: 02 Jul 2020

Download Citation

Dalton Trans., 2020,49, 10203-10211

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Bimetallic FeNi-MIL-88-derived NiFe₂O₄@Ni–Mn LDH composite electrode material for a high performance asymmetric supercapacitor

S. Li, J. Pan, F. Li, L. Zhang, D. Chai, Z. Zhang and J. Xin, Dalton Trans., 2020, 49, 10203 DOI: 10.1039/D0DT00251H

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