超级电容器
循环伏安法
氧化物
氧化钴
化学
阳极
电容
纳米复合材料
电解质
电极
碳纳米管
化学工程
介电谱
阴极
电化学
电容器
氧化钌
钴
材料科学
无机化学
纳米技术
电压
电气工程
有机化学
物理化学
工程类
作者
Xiaofeng Wang,Zheng You,Dianbo Ruan
标识
DOI:10.1002/cjoc.200690212
摘要
Abstract A novel type of composite electrode based on sheet like cobalt oxide particles has been used in supercapacitors. Cobalt oxide cathodically deposited from Co(NO 3 ) 2 solution with carbon nanotubes as matrix exhibited large pseudo‐capacitance of 322 F·g −1 in 6 mol·L −1 KOH. A sol‐gel process for the preparation of ultrafine RuO 2 particles was developed to design electrodes with large surface area. The composite electrodes were developed by the deposition of RuO 2 on the surface of carbon nanotubes. A specific capacitance of 785 F·g −1 can be achieved with the 20% carbon nanotubes loaded. To characterize the metal oxide nanocomposite electrode, a cyclic voltammetry and AC impedance test are executed. This study also reports a hybrid capacitor, which consists of cobalt oxide composite as a cathode and ruthenium oxide composite as an anode. The electrochemical performance of the hybrid capacitor is characterized by a dc charge/discharge test and cyclic voltammograms. The hybrid capacitor shows capacitor behavior with an extended operating voltage of 1.4 V. The maximum energy density and specific power density of the cell reach the value of 23.7 and 8.1 kW·g −1 respectively. The hybrid capacitor exhibits high‐energy density and stable power characteristics.
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