Performance of Non-foam Type Nickel Electrode Using Surface-coated Ni(OH)₂ for Nickel-metal Hydride Battery

Abstract

New paste-type positive electrodes with Ni- or Co(OH)₂-coated Ni(OH)₂ for nickel/metal-hydride (Ni/MH) battery were prepared using low-cost punching metal as substrate. Their charge-discharge properties were evaluated using non-sealed battery. Electrodes with Ni- and Co(OH)₂-coated Ni(OH)₂ showed higher discharge capacity than those with Ni and CoO as conductive agents, respectively. SEM observation and resistance of these Ni(OH)₂ materials suggest formation of fine conductive network by homogeneous Ni and Co(OH)₂ coating. The capacities of these coated electrodes faded by 25% after 50 charge-discharge cycles. Their swelling rate during cycles was larger than those of the conventional Ni-foam electrodes, and the cycle degradation was mainly attributable to decrease in current collectivity by the swelling. Sealed battery with Co(OH)₂-coated Ni(OH)₂ showed utilization efficiency of 77% (vs. 0.2 C) at 3 C rate, which was comparable to that of conventional Ni-foam electrode.