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催化学报 2013

FeO/Pt(111)与FeO2/Pt(111)的几何、电子结构及表面氧活性的第一性原理研究

DOI: 10.1016/S1872-2067(12)60580-4, PP. 973-978

孙大鹏,李微雪

Keywords: 超薄氧化物膜,超结构,表面褶皱,电荷转移,功函

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Abstract:

？采用密度泛函理论系统研究了超薄氧化物膜/金属体系FeO/Pt和FeO2/Pt及其表面不同区域(FCC,HCP和TOP)的几何结构、电子性质及氧的活性.研究发现,表面O-Fe高度差δz作为一个重要的特征结构参数直接影响局域表面静电势和表面氧的结合能:δz越大,静电势越大,氧的结合能越弱.计算发现,在FeO/Pt体系中,δz顺序为FCC>HCP>TOP,而FeO2/Pt中是FCC>TOP>HCP.此外,在FeO/Pt中,电荷转移方向是从氧化物膜到衬底,Fe的表观价态为+2.36,表面功函较纯Pt(111)的变化可忽略;而FeO2/Pt中,电荷转移的方向是从衬底到氧化物,Fe的表观价态为+2.95,表面功函较纯Pt增加1.24eV.进一步分析了电荷转移和表面偶极对电子性质的作用机制.这些研究结果对于认识超薄氧化物薄膜对表面几何结构、电子性质、表面氧活性的调制具有重要的启示意义.

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