First-principles study of bulk and (001) surface of TiC 被引量：5

First-principles study of bulk and (001) surface of TiC

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摘要 The structural and electronic properties of bulk and (001) plane of TiC were investigated by the first-principles total-energy pseudopotential method based on density functional theory.The calculated bulk properties indicate that bonding nature in TiC is a combination of ionicity,covalency and metallicity,in which the Ti-C covalent bonding is the predominate one.The calculated results of structural relaxation and surface energy for TiC(001) slab indicate that slab with 7 layers shows bulk-like characteristic interiors,and the changes of slab occur on the outmost three layers,which shows that the relaxation only influences the top three layers.Meanwhile,the strong Ti-C covalent bonding can be found in the distribution of charge density on the (110) and (001) planes.Ti-C covalent bonding is enhanced by the charge depletion and accumulation in the vacuum and the interlayer region between top two atomic layers. The structural and electronic properties of bulk and （001） plane of TiC were investigated by the first-principles total-energy pseudopotential method based on density functional theory.The calculated bulk properties indicate that bonding nature in TiC is a combination of ionicity,covalency and metallicity,in which the Ti—C covalent bonding is the predominate one.The calculated results of structural relaxation and surface energy for TiC（001） slab indicate that slab with 7 layers shows bulk-like characteristic interiors,and the changes of slab occur on the outmost three layers,which shows that the relaxation only influences the top three layers.Meanwhile,the strong Ti—C covalent bonding can be found in the distribution of charge density on the （110） and （001） planes.Ti—C covalent bonding is enhanced by the charge depletion and accumulation in the vacuum and the interlayer region between top two atomic layers.

作者房立红王丽宫建红戴洪尚苗德壮

机构地区 Key Laboratory of Liquid Structure and Heredity of Materials School of Mechanical and Electronic Engineering

出处《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2010年第5期857-862,共6页 中国有色金属学报（英文版）

基金 Project(200802015) supported by Post-doctoral Foundation of Shandong Province,China Project(50625101) supported by the National Natural Science Foundation for Distinguished Young Scholars of China

关键词第一原理 TIC 表面散装电荷密度分布平板显示结构弛豫能量密度 first-principles TiC charge transfer structural relaxation

分类号 TB303 [一般工业技术—材料科学与工程]

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Transactions of Nonferrous Metals Society of China

2010年第5期

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