Electrochemical behavior of activated-carbon capacitor material loaded with nickel oxide

In order to enhance specific capacitance and energy density of carbon-based supercapacitor, some nanometer-scale amorphous particles of nickel oxide were loaded into activated-carbon by suspending the activated-carbon in a Ni(NO3)(2) solution followed by neutralization. A hybrid type electrochemical capacitor was made and tested, in which the activated-carbon loaded with nickel oxide was used as cathode material and activated-carbon was used as anode material. Although the BET surface area of the activated-carbon decreased upon nickel oxide loading compared to that of the starting material, its specific capacitance increased 10.84%, from 175.40 to 194.01 F g(-1) and the potential of oxygen evolution oil the composite material electrode was 0.076 V higher than that of the pure activated-carbon electrode, in the electrolyte of 6 mol/L KOH solution, so the hybrid capacitor had larger energy density. Similar to the pure activated-carbon electrode, no obvious change appears oil the specific capacitances of the composite material electrode at various discharge currents and the composite material electrode exhibiting good power characteristics. (C) 2005 Elsevier Ltd. All rights reserved.