首页 | 本学科首页   官方微博 | 高级检索  
     

稀土La掺杂Mg2Si的几何结构、弹性性能和电子结构的第一性原理研究EI北大核心CSCD
引用本文:李英民,马鸣檀,任玉艳,刘桐宇. 稀土La掺杂Mg2Si的几何结构、弹性性能和电子结构的第一性原理研究EI北大核心CSCD[J]. 材料工程, 2020, 0(4): 100-107
作者姓名:李英民  马鸣檀  任玉艳  刘桐宇
作者单位:沈阳工业大学材料科学与工程学院;潍坊科技学院机械工程学院
基金项目:辽宁省教育厅科学技术研究项目(LGD2016017);沈阳市科学技术项目(F15-199-1-11)。
摘    要:采用密度泛函理论(DFT)的第一性原理平面波赝势方法对稀土元素镧(La)掺杂Mg2Si的几何结构、弹性性能和电子结构进行计算与分析。首先,结合形成焓、Born力学稳定性以及差分电荷密度的结果可知,掺杂稀土元素La之后,形成的Mg8Si4La和Mg8Si3La均不能稳定存在,La掺杂的Mg2Si优先占据体系Mg原子的位置;其次,晶体的体模量(B),剪切模量(G),杨氏模量(E),泊松比(ν),以及各向异性系数(A)的计算结果表明本征Mg2Si为脆性相,而Mg7Si4La为韧性相,掺杂La可以提高Mg2Si的延展性;最后,态密度、Mulliken布居数和电荷差分密度的计算结果表明掺杂稀土镧后费米面向高能级区域偏离,进入导带,提高了Mg2Si的导电性。

关 键 词:第一性原理  稀土元素La  Mg2Si  弹性性能  电子结构

First principles study on geometry structure,elastic property and electronic structure of La-doped Mg2Si
LI Ying-min,MA Ming-tan,REN Yu-yan,LIU Tong-yu. First principles study on geometry structure,elastic property and electronic structure of La-doped Mg2Si[J]. Journal of Materials Engineering, 2020, 0(4): 100-107
Authors:LI Ying-min  MA Ming-tan  REN Yu-yan  LIU Tong-yu
Affiliation:(School of Material Science and Engineering,ShenyangUniversity of Technology,Shenyang 110870,China;School of Mechanical Engineering,WeifangUniversity of Science and Technology,Weifang 262700,Shandong,China)
Abstract:The geometrical structure, elastic properties and electronic structure of Mg2Si doped with lanthanum(La) were calculated and analyzed by using the first-principles plane wave pseudopotential method of density functional theory. Firstly, combined with the results of the formation of erbium and Born mechanical stability, it can be seen that Mg8Si4La and Mg8Si3La do not exist stably after doping with rare earth element La. La-doped Mg2Si preferentially occupies the position of the system Mg atom;Secondly, the bulk modulus(B), the shear modulus(G), Young’s modulus(E), Poisson’s ratio(ν), and anisotropy coefficient(A) of the crystal were calculated that the intrinsic Mg2Si is a brittle phase, while Mg7Si4La is a ductile phase. The doping of La can improve the ductility of Mg2Si. Finally, the calculation of density of states, Mulliken population and charge differential density show that Fermi surface is deviated from the high-energy region after doping with rare earth, and enters the conduction band, which improves the conductivity of Mg2Si.
Keywords:first principles  rare earth element La  Mg2Si  elastic property  electronic structure
本文献已被 CNKI 维普 等数据库收录!
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号