First-principles study on the geometric structure, electronic structure and elastic properties of the Ti3AC2/ Zr (A=Si, Al) van der Waals heterojunction materials
SHI Yifan1, ZHOU Zhiqian1, HU Yonghong1, XUE Li2, MAO Caixia2
1.School of Nuclear Technology and Chemistry & Biology, Hubei University of Science and Technology, Xianning, Wuhan 437100, China;2.School of Electronic and Information Engineering, Hubei University of Science and Technology, Xianning, Wuhan 437100, China
Abstract:The elastic, electronic structure and thermodynamic properties of Ti3AC2/Zr(A=Si,Al) van der Waals heterojunction materials were investigated by first-principles calculations. The electronic properties and valence bond properties of Ti3AC2/Zr(A=Si,Al) were analyzed based on the band structure, electronic density of states and Mulliken distribution. The elastic properties and mechanical stability of Ti3SiC2/Zr and Ti3AlC2/Zr heterostructures were calculated and analyzed by generalized gradient approximation (GGA). It's found from our calculations that Ti3AC2/Zr(A=Si,Al) have high anisotropy as well as excellent stability, and that under the same strains, the deformations of the Ti3AC2/Zr(A=Si,Al) van der Waals heterojunction materials are bigger than that of Zr metal while smaller than that of Ti3AC2/Zr(A=Si,Al).
史毅凡,周芷千,胡永红,薛 丽,毛彩霞. Ti3AC2/Zr(A=Si,Al)范德华异质结材料的几何结构、电子结构和弹性性质的第一性原理研究[J]. 华中师范大学学报(自然科学版), 2018, 52(4): 514-519.
SHI Yifan,ZHOU Zhiqian,HU Yonghong,XUE Li,MAO Caixia. First-principles study on the geometric structure, electronic structure and elastic properties of the Ti3AC2/ Zr (A=Si, Al) van der Waals heterojunction materials. journal1, 2018, 52(4): 514-519.
2018, Vol. 52 
