First-principles investigation on initial stage of 2H-SiC(001) surface oxidation 被引量：1

First-principles investigation on initial stage of 2H-SiC(001) surface oxidation

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摘要 We present comprehensive first-principles calculations on the initial stages of SiC oxidation by atomic oxygen on the 2H-SiC(001) surface. In order to study the kinetics of oxygen incorporation at the 2H-SiC(001) surface, we investigated adsorption and diffusion of oxygen atoms and SiO2 nucleation. The adsorption sites, corresponding to the local minima of the potential energy surface (PES) for iso-lated adatoms, were identified through a comparative study of the adatom binding energy at different locations. We found that the Bridge (siloxane) site is preferred over other adsorption sites. There is no energy barrier at 0K for oxygen insertion into this site. The diffusion energy barriers that the adatom has to overcome when jumping between two adsorption sites were calculated. The premises of silica nucleation were investigated by calculating the modifications of the oxygen atom binding energy due to the interaction with neighboring adatoms. We present comprehensive first-principles calculations on the initial stages of SiC oxidation by atomic oxygen on the 2H-SiC（001） surface. In order to study the kinetics of oxygen incorporation at the 2H-SiC（001） surface, we investigated adsorption and diffusion of oxygen atoms and SiO2 nucleation. The adsorption sites, corresponding to the local minima of the potential energy surface （PES） for isolated adatoms, were identified through a comparative study of the adatom binding energy at different locations. We found that the Bridge （siloxane） site is preferred over other adsorption sites. There is no energy barrier at OK for oxygen insertion into this site. The diffusion energy barriers that the adatom has to overcome when jumping between two adsorption sites were calculated. The premises of silica nucleation were investigated by calculating the modifications of the oxygen atom binding energy due to the interaction with neighboring adatoms.

作者 WANG JunJie ZHANG LiTong ZENG QingFeng VIGNOLES L Gerard GUETTE Alain

机构地区 National Key Laboratory of Thermostructure Composite Materials Laboratory for Thermostructural Composites

出处《Chinese Science Bulletin》 SCIE EI CAS 2009年第9期1487-1494,共8页

基金 Supported by Snecma Propulsion Solide (Contract FPR No. 0539298A) Natural Science Foundation of China (Grant No 50802076) Flying Star Program of Northwestern Polytechnical University of China

关键词第一性原理计算表面氧化碳化硅原子结合能吸附位 SIO2 局部极小二氧化硅 2H-SiC, first-principles, adsorption, potential energy surface, diffusion path

分类号 O313 [理学—一般力学与力学基础] TB383 [一般工业技术—材料科学与工程]

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First-principles investigation on initial stage of 2H-SiC(001) surface oxidation 被引量：1

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