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Study on electrochemical property of La0.75Mg0.25Ni2.85Co0.45–x(AlSn)x (x=0.0,0.1,0.2,0.3) alloys

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【作者】 蓝志强李家丞魏冰祝蓉蓉郭进

【Author】 LAN Zhiqiang;LI Jiacheng;WEI Bing;ZHU Rongrong;GUO Jin;Guangxi Colleges and Universities Key Laboratory of Novel Energy Materials and Related Technology,College of Physics Science and Technology,Guangxi University;Guangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials,School of Materials Science and Engineering,Guilin University of Electronic Technology;

【机构】 Guangxi Colleges and Universities Key Laboratory of Novel Energy Materials and Related Technology,College of Physics Science and Technology,Guangxi UniversityGuangxi Collaborative Innovation Center of Structure and Property for New Energy and Materials,School of Materials Science and Engineering,Guilin University of Electronic Technology

【摘要】 La0.75Mg0.25Ni2.85Co0.45–x(AlSn)x(AlSn)x(x=0.0,0.1,0.2,0.3) alloys were prepared by magnetic induction melting method, and the phase composition and electrochemical properties were investigated systematically. The alloys were mainly composed of LaNi5, La2Ni7 and LaNi3 phase, and the cell volume of LaNi5 increased with the Al and Sn contents. For the alloy corresponding to x=0.0, the Cmax and C150 were 348.9 and 185 mA h/g, respectively, then for the alloy electrode with x=0.2, even though the Cmax was only 309.0 mA h/g less than 348.9 mA h/g, the C150 of 231 mA h/g was much higher than 185 mA h/g. And the values of the limit current density, anodic peak current density and hydrogen diffusion coefficient of the La0.75Mg0.25Ni2.85Co0.35(AlS n)0.1(x=0.1) alloy were 1079.5, 1023.8 mA /g and 5.71×10–10 cm2/s, respectively. Which were the highest than that of any other electrodes. These results suggested that the kinetic property of the La0.75Mg0.25Ni2.85Co0.45–x(AlSn)x(AlSn)x(x=0.0, 0.1, 0.2, 0.3) electrodes could be improved effectively by adding moderate contents of Al and Sn.

【Abstract】 La0.75Mg0.25Ni2.85Co0.45–x(AlSn)x(AlSn)x(x=0.0,0.1,0.2,0.3) alloys were prepared by magnetic induction melting method, and the phase composition and electrochemical properties were investigated systematically. The alloys were mainly composed of LaNi5, La2Ni7 and LaNi3 phase, and the cell volume of LaNi5 increased with the Al and Sn contents. For the alloy corresponding to x=0.0, the Cmax and C150 were 348.9 and 185 mA h/g, respectively, then for the alloy electrode with x=0.2, even though the Cmax was only 309.0 mA h/g less than 348.9 mA h/g, the C150 of 231 mA h/g was much higher than 185 mA h/g. And the values of the limit current density, anodic peak current density and hydrogen diffusion coefficient of the La0.75Mg0.25Ni2.85Co0.35(AlS n)0.1(x=0.1) alloy were 1079.5, 1023.8 mA /g and 5.71×10–10 cm2/s, respectively. Which were the highest than that of any other electrodes. These results suggested that the kinetic property of the La0.75Mg0.25Ni2.85Co0.45–x(AlSn)x(AlSn)x(x=0.0, 0.1, 0.2, 0.3) electrodes could be improved effectively by adding moderate contents of Al and Sn.

【关键词】 hydrogen storage alloydischarge capacitycycle stabilitykinetic propertyrare earths
【Key words】 hydrogen storage alloydischarge capacitycycle stabilitykinetic propertyrare earths
【基金】 Project supported by the National Natural Science Foundation of China(51271061,51571065);Foundation of Guangxi Educational Committee(2013YB006);the Key Laboratory of Guangxi for Nonferrous Metals and Materials Processing Technology
  • 【文献出处】 Journal of Rare Earths ,稀土学报(英文版) , 编辑部邮箱 ,2016年04期
  • 【分类号】TG139.7
  • 【被引频次】8
  • 【下载频次】35
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