Ab-initio predictions of phase stability, electronic structure, and optical properties of (0001)-MAX surfaces in M2AC (M = Cr, Zr, Hf; A = Al, Ga)

被引:0
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作者
Qureshi, Muhammad Waqas [1 ,2 ]
Ma, Xinxin [1 ,2 ]
Zhang, Xinghong [3 ]
Tang, Guangze [2 ]
Paudel, Ramesh [4 ]
Paudyal, Durga [5 ,6 ,7 ]
机构
[1] State Key Laboratory of Advanced Welding and Joining, Harbin Institute of Technology, Harbin,150001, China
[2] School of Materials Science and Engineering, Harbin Institute of Technology, Harbin,150001, China
[3] AECC Harbin Bearing Company Limited, Harbin,150001, China
[4] Nepal Academy of Science and Technology (NAST), Khumaltar, Lalitpur,44700, Nepal
[5] Ames Laboratory of the US DOE, Iowa State University, Ames,IA,50011, United States
[6] Electrical and Computer Engineering Department, Iowa State University, Ames,IA,50011, United States
[7] Computer Science Department, Iowa State University, Ames,IA,50011, United States
来源
Journal of Physics and Chemistry of Solids | 2022年 / 160卷
基金
中国国家自然科学基金;
关键词
Chemical bonds - Corrosion resistance - Structural properties - Thin films - Electronic structure - Thermooxidation - Interfacial energy;
D O I
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中图分类号
学科分类号
摘要
Here, we report MAX phases' surface properties, which are essential for thin-film technology due to their excellent resistance to high-temperature oxidation, corrosion, and wear. The surface stability, electronic, and optical properties of 0001-surfaces in M2AC (M = Zr, Hf, Cr; A = Al, Ga) are investigated and compared with their bulk counterparts. The interplay between chemical bonding and charge distribution is discussed from electronic structure, including the Fermi surfaces. Four possible (0001)-terminated surfaces are considered by breaking M − C and M-A bonds in which cleavage energy of M − C is higher than M-A. The Cr–Al bond in Cr2AlC is stronger than other M-A bonds. The charge density of valance A-p electrons redistributes in the surface area, distinct from that of the bulk. The A- and M(C)-terminated (0001)-surfaces are the most stable and energetically favorable terminations due to lower surface energies. The optical properties of the most stable (0001)-surfaces were also investigated to understand the dielectric and photoconductive behavior in the (0001)-terminated surfaces of M2AC. © 2021 Elsevier Ltd
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