Abstract
The current challenge of the still poor electronic conductivity is one of the major bottlenecks to obtain the large reversible capacitance and rapid rate capability for MnO2-based supercapacitor electrodes. Herein, we report the synthesis of a binder-less Ni/MnO2 electrode with hierarchical MnO2 nanosheets anchoring on the foamed-Ni support frameworks, and the mass loadings of MnO2 on the foamed-Ni and the nanostructural morphology are optimized to enhance its electrochemical performance. Such hierarchical nanosheet structure of MnO2 can improve its electrolyte-accessible surface area and the foamed-Ni framework can effectively enhance its electronic conductivity, which can be beneficial to improve its capacitance and rate capability. The Ni/MnO2 electrodes reveal an areal capacitance of 2.31 F cm−2 at the current density of 1 mA cm−2, which can maintain 1.48 F cm−2 (64.1%) at 20 mA cm−2, exhibiting high capacitance and excellent rate capability. Moreover, the Ni/MnO2 electrode-based supercapacitor exhibits a superior energy density of 160.1 mWh cm−2 and an outstanding cycling stability of 86.8% capacitance retention after 9000 cycles, indicating that such binder-less Ni/MnO2 offers a promising electrode material for the high-performance supercapacitor.
Graphical abstract
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