Electrochemical Capacitor Using Nickel Oxide/Carbon Nanotube Composites Electrode
碳纳米管表面沉积氧化镍及其超电容器的电化学行为

Carbon nanotubes prepared by a catalytic pyrolysis method were considered as active electrode materials for the storage of energy in supercapacitors. Due to their unique mesoporos-ity, this material has a high ability for the accumulation of charges in the electrode/electrolyte interface. Electrochemical capacitors based on carbon nanotube/nickel oxide composite electrodes were developed through the electrochemical deposition of nickel oxide on the nanotube electrode. The value of capacitance obtained from nanotubes modified by nickel oxide reaches 52F/g. The self-discharge rate of this supercapacitor is much lower than that of the supercapacitor composed of carbon nanotube electrode.