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Mm0.78Mg0.22Ni2.48Mn0.09Al0.23Co0.47储氢合金的表面改性
引用本文:李国辉,黄红霞,王新颖,谢文强. Mm0.78Mg0.22Ni2.48Mn0.09Al0.23Co0.47储氢合金的表面改性[J]. 无机化学学报, 2016, 32(8): 1358-1362
作者姓名:李国辉  黄红霞  王新颖  谢文强
作者单位:桂林理工大学广西矿冶与环境科学实验中心, 桂林 541004,桂林理工大学广西矿冶与环境科学实验中心, 桂林 541004,桂林理工大学广西矿冶与环境科学实验中心, 桂林 541004,桂林理工大学广西矿冶与环境科学实验中心, 桂林 541004
基金项目:国家自然科学基金(No.51474133)、内蒙古自然科学基金(No.2016MS0513)和内蒙古科技大学产学研(No.PY-201502)资助项目。
摘    要:为了提高AB3型合金Mm_(0.78)Mg_(0.22)Ni_(2.48)Mn_(0.09)Al_(0.23)Co_(0.47)(Mm由82.3%La和17.7%Nd组成)的电化学性能,将石墨烯添加到合金中。通过XRD和SEM可以看出,石墨烯并没有改变合金的相结构,仅是简单地附在合金表面。当加入质量分数为2%的石墨烯时,合金电极的最大放电容量Cmax达到364.9 m Ah·g-1。石墨烯的添加加速了合金表面的电化学反应。

关 键 词:储氢合金  石墨烯  表面处理  电化学性能
收稿时间:2016-01-18
修稿时间:2016-04-18

Surface Modification of Mm0.78Mg0.22Ni2.48Mn0.09Al0.23Co0.47 Hydrogen Storage Alloy
LI Guo-Hui,HUANG Hong-Xi,WANG Xin-Ying and XIE Wen-Qiang. Surface Modification of Mm0.78Mg0.22Ni2.48Mn0.09Al0.23Co0.47 Hydrogen Storage Alloy[J]. Chinese Journal of Inorganic Chemistry, 2016, 32(8): 1358-1362
Authors:LI Guo-Hui  HUANG Hong-Xi  WANG Xin-Ying  XIE Wen-Qiang
Affiliation:Guangxi Scientific Experiment Center of Mining, Metallurgy and Environment, Guilin University of Technology, Guilin, Guangxi 541004, China,Guangxi Scientific Experiment Center of Mining, Metallurgy and Environment, Guilin University of Technology, Guilin, Guangxi 541004, China,Guangxi Scientific Experiment Center of Mining, Metallurgy and Environment, Guilin University of Technology, Guilin, Guangxi 541004, China and Guangxi Scientific Experiment Center of Mining, Metallurgy and Environment, Guilin University of Technology, Guilin, Guangxi 541004, China
Abstract:AB3 type Mm0.78Mg0.22Ni2.48Mn0.09Al0.23Co0.47 (Mm of 82.3% La and 17.7% Nd composition) hydrogen storage alloy was modified by adding graphene to improve its electrical chemical properties. XRD and SEM indicated the phase structure of the alloy did not change, but graphene was covered the surface of the alloy. When adding a mass fraction of 2% of graphene, the maximum discharge capacity Cmax of the alloy electrode reached 364.9 mAh·g-1. Graphene accelerated the electrochemical reaction of alloy surface.
Keywords:hydrogen storage alloy  graphene  surface modification  electrochemical properties
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