Facile synthesis of foamed-nickel supporting MnO2 as binder-less electrodes for high electrochemical performance supercapacitors

摘要

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 2.31Fcm(-2) at the current density of 1mAcm(-2), which can maintain 1.48Fcm(-2) (64.1) at 20mAcm(-2), exhibiting high capacitance and excellent rate capability. Moreover, the Ni/MnO2 electrode-based supercapacitor exhibits a superior energy density of 160.1mWhcm(-2) and an outstanding cycling stability of 86.8 capacitance retention after 9000cycles, indicating that such binder-less Ni/MnO2 offers a promising electrode material for the high-performance supercapacitor.