摘要
研究了贮氨合金两种表面化学处理方法对MH电极活化性能及Ni/MH电池IC充放电性能的影响:第一种处理方法是贮氢合金在6th。l·L-’KOH溶液中80T处理sh,第二种处理方法是在含有0.04mol·L-‘KBH4的6mol·L’‘KOH溶液中80t处理sh.通过MH电极的放电容量、充放电过程中电极极化和电化学阻抗谱测试评价了上述化学处理对电极活化性能的影响.电子探针表面分析表明化学处理后贮氢合金表面由于铝元素的优先溶解形成一层具有较高电催化活性的富镍表面层,它是改善电极活化性能的主要原因·以处理的贮氨合金为负极材料的Ni/MH电池具有较高IC充放电循环寿命和1.ZV以上放电容量.
The hydrogen storage alloys were treated hy two kinds of surface cl1emical treatmentsto improve the activation propcrty of MH electrodes and 1C charge/discharge characteristics ofNi/MH batteries. The first was the alloys were imn1ersed in 6 mol'L-1 KOH solution at 80 ℃for 8h, the second was the alloys were inunersed in 6 mol'L-1 KOH solution colltaining 0.04mol.L-1KBH4 at 80 ℃ for 8h- The effects of chemical treatments on performances of MH elec-trodes werc cvaluated by discllarge capacity polarization and electrochendcal impedance. Electronprobe analyses for the surface composition of the alloy indicated that a Nirich surface layer withhigh electrochermcal activity was formed on the alloy surface by preferential dissolution of Al.Ni/MH batteries employmg treated alloys as negative clectrode material have long cyclic life at 1Cand higher capacityover 1.2V.
出处
《物理化学学报》
SCIE
CAS
CSCD
北大核心
1998年第8期742-746,共5页
Acta Physico-Chimica Sinica
基金
国家863计划
关键词
贮氢合金
镍氢电池
循环寿命
表面处理
Hydrogen storage alloy, Ni/MH battery,Surface chemical treatment,Cyclic life