超级电容器
材料科学
电容
电极
复合材料
涂层
储能
功率密度
使用寿命
环境友好型
电化学
光电子学
纳米技术
功率(物理)
化学
量子力学
生物
物理
物理化学
生态学
作者
Menghe Jiang,Ying Wang,Cuili Xiang,Yongjin Zou,Fen Xu,Lixian Sun,Dan Cai,Chua Yong Shen
标识
DOI:10.1016/j.jallcom.2023.169125
摘要
Supercapacitors are promising environmentally friendly energy storage devices owing to their high-power density, fast charge and discharge rates, long service life, wide applicable temperature range, and green environmental protection. Electrodes largely determine superconductor performance, so it is crucial to develop electrode materials with excellent performance. In this work, MnxCoyO4 @MoS2 composites were obtained by coating flake MoS2 arrays on spherical MnxCoyO4 using hydrothermal and heat treatment methods. At x/y = 1:2, the MnxCoyO4 @MoS2 electrode material exhibited a specific capacitance of 1422 F g−1 at 1 A g−1, which was higher than that at x/y = 1:1 and 2:1. When assembled into an aqueous asymmetric supercapacitor, the proposed electrode material provided a specific capacitance of 131 F g−1 at 1 A g−1. The promising cycle life of the electrode material was further illustrated by the fact that capacity retention of 85% was obtained after 5000 cycles, and the device retained a specific power of 794 W kg−1 with 46.58 Wh kg−1. The proposed electrode material design, therefore, provides new ideas to be used in the development of advanced electrodes.
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