Electrodeposition of nanoporous nickel oxide film for electrochemical capacitors

Nanoporous nickel oxide film is electrochemically anodic deposited onto a stainless steel substrate by a plating bath of sodium acetate, nickel sulfate, and sodium sulfate mixture at room temperature without any template or catalyst. The deposited film is highly porous and composed of interconnected nanoflakes of thickness 12-16 nm after 300 degrees C annealing. Specific capacitance of the deposited film depends on the applied potential window significantly in 1 M KOH solution. Specific capacitance is much increased by increasing the upper limit potential due to the contribution of redox reaction of nickel oxide to the measured capacitance. The deposited film shows a superior performance in high-rate charge/discharge capability. Specific capacitance of the deposited electrode is 167.3 Fg(-1) at 1 Ag-1 charge/discharge, and 156.6 Fg(-1) at 16.5 Ag-1. The film also shows a stable capacitance during cycling. After 5000 test cycles at current density of 4 Ag-1, specific capacitance of the film is 140 Fg(-1), approximately 87.5 % of its maximum capacitance (160 Fg(-1)). (C) 2007 International Association for Hydrogen Energy. Published by Elsevier Ltd. All rights reserved.