摘要
通过熔纺(melt-spinning)法制备了Zr0.9Ti0.1(Ni0.57V0.1Mn0.28C0.05)2.1合金,并与C03Mo混合球磨以改善其动力学性能结果发现,经过球磨,储红合金与作为催化剂的Co3Mo接触更加紧密,电化学容量和活化性能得到明显改善交流阻抗测试表明,球磨大大改善了合金的表面活性.但长时间的球磨可使合金进一步非晶化,导致容量及活性的下降.实验结果还表明,将快速凝固合金与具有电催化作用的Co3Mo球磨得到的电极材料,其活性要高于合金与只作为导体的铜粉进行球磨或在无添加剂条件下进行球磨得到的电极材料.
Zr0. 9Ti0. 1 (Ni0.57V0.1Mn0. 28Co0. 05 )2.1 alloy was prepared by melt-spinning and ball-milled with Co3Mo additive to imprve its kinetic characteristics. It was shown that after 2 h milling the alloy exhibited a much improved activation performance as well as electrochemical capacity. Electrochemical impedance experiments also showed that ball-milling of the alloy with Co3Mo could improve the surface activity to a great extent. This can be attributed to the catalytic effect of Co3Mo, which had a much closer contact with the alloy powder after ball-milling, on hydrogen oxidation. However, long time milling could decrease the capacity gradually due to the further amorphization of the alloy. The experimental results also showed that the alloy ball-milled with electrochemically catalytic material such as Co3Mo exhibited a better activity than those milled without any additives or with a metal powder such as Cu acting only as a conductor.
出处
《物理化学学报》
SCIE
CAS
CSCD
北大核心
1999年第5期420-424,共5页
Acta Physico-Chimica Sinica
基金
国家863基金!715-004-0233
关键词
电极
负极添加剂
球磨处理
储氢合金
改性
Metal-hydride electrodes,Negatve electrode additives,Ball-milling treatment
