### Mg-Fe-Ni非晶储氢电极材料的微结构和电化学性能

1. 浙江大学材料与化工学院, 杭州    310027
• 收稿日期:2004-10-08 修回日期:2004-12-02 发布日期:2005-05-15
• 通讯作者: 陈长聘 E-mail:cpchen@zju.edu.cn

### Microstructure and Electrochemical Properties of Amorphous Mg-Fe-Ni Hydrogen Storage Electrode Material

XIAO Xue-Zhang; CHEN Chang-Pin; WANG Xin-Hua; CHEN Li-Xin; WANG Li; GAO Lin-Hui

1. College of Materials Science and Chemical Engineering, Zhejiang University, Hangzhou    310027
• Received:2004-10-08 Revised:2004-12-02 Published:2005-05-15
• Contact: CHEN Chang-Pin E-mail:cpchen@zju.edu.cn

Abstract: The amorphous Mg-Fe-Ni composites have been synthesized by mechanical ball-milling. The microstructure and electrochemical properties of the composites were characterized by XRD, SEM and electrochemical testing. The electrochemical properties of the composites vary greatly with the amount of Mg content and Ni introduced. For the (xMg+Fe)+200% (mass fraction) Ni (x=2, 3) composites, it is found that the maximal discharge capacity increases with increasing Mg content in the composites. The maximal discharge capacities of the composites with x=2, 3 were 391.9 mA•h•g-1 and 480.8 mA•h•g-1, respectively. The result also indicates that, for the ball-milled (3Mg+Fe)+y% Ni (y=50, 100, 200) composites, with increasing Ni content in the composites, the discharge capacity increases first and then decreases, and reaches a maximum value of 519.5 mA•h•g-1 as y=100. In contrast, the discharge capacity of nickel-free (3Mg+Fe) composite is just 23.8 mA•h•g-1. The microstructure analysis shows that the composites are mix structure composed two single phases with Mg and Fe for the nickel-free composite even after being milled for 120 h, but no new phase is formed. The composites milled with the addition of nickel powder could easily form Mg-Fe amorphous structure. Besides, the nickel powder in the composites plays a role of electro-catalysis, hereby the electrochemical properties of the Mg-Fe-Ni composites are effectively improved.