Effect of La Addition on Electrochemical Properties of Amorphous LaMg_(11)Zr+200Ni Alloy

Effect of La Addition on Electrochemical Properties of Amorphous LaMg_(11)Zr+200Ni Alloy

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摘要 The effect of La addition on the structure and electrochemical properties of amorphous LaMg 11 Zr+200Ni(LaMg 11 Zr:Ni=1:2,m:m) hydrogen storage alloy prepared by mechanical alloying was investigated systematically.The results show that the alloys have an amorphous structure after 20 h ball-milling and the particles are significantly refined with the addition of La.The electrochemical tests indicate that the charging resistance of the alloy electrodes decreases with the addition of La.The maximum discharge capacity of the alloy electrodes increases with the increase of La addition,while the cyclic stability and high-rate discharge performance increase firstly and then decrease as the La content increases.When the mass fraction of La is up to 5%,the maximum discharge capacity after charging/discharging of 30 cycles of the alloy electrode is increased from 576.2 to 597.5 mA.h/g,and the capacity retention rate and high-rate dischargeability(HRD) of the alloy electrode are increased by 20.5% and 29.4% respectively compared with those of the alloy electrode without the La addition,exhibiting the best comprehensive electrochemical performances. The effect of La addition on the structure and electrochemical properties of amorphous LaMg11Zr＋200Ni （LaMg11Zr ： Ni = 1 ： 2, rn ： rn） hydrogen storage alloy prepared by mechanical alloying was investigated systematically. The results show that the alloys have an amorphous structure after 20 h ball-milling and the particles are significantly refined with the addition of La. The electrochemical tests indicate that the charging resistance of the alloy electrodes decreases with the addition of La. The maximum discharge capacity of the alloy electrodes increases with the increase of La addition, while the cyclic stability and high-rate discharge performance increase firstly and then decrease as the La content increases. When the mass fraction of La is up to 5%, the maximum discharge capacity after charging/discharging of 30 cycles of the alloy electrode is increased from 576.2 to 597.5 mA · h/g, and the capacity retention rate and high-rate dischargeability （HRD） of the alloy electrode are increased by 20.5% and 29.4% respectively compared with those of the alloy electrode without the La addition, exhibiting the best comprehensive electrochemical performances.

作者刘子利周桂斌闫新春刘希琴

机构地区 College of Material Science and Technology

出处《Journal of Shanghai Jiaotong university(Science)》 EI 2012年第3期291-296,共6页 上海交通大学学报（英文版）

基金 the Key Technologies Research and Development Program of Jiangsu Province(No. BE2010103)

关键词 hydrogen storage alloy La addition phase structure electrochemical characteristics hydrogen storage alloy, La addition, phase structure, electrochemical characteristics

分类号 TG139 [一般工业技术—材料科学与工程]

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参考文献4

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Effect of La Addition on Electrochemical Properties of Amorphous LaMg_(11)Zr+200Ni Alloy

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