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Tuning the Band Gap in Silicene by Oxidation

Silicene monolayers grown on Ag(111) surfaces demonstrate a band gap that is tunable by oxygen adatoms from semimetallic to semiconducting type. By using low-temperature scanning tunneling microscopy, it is found that the adsorption configurations and amounts of oxygen adatoms on the silicene surface are critical for band-gap engineering, which is dominated by different buckled structures in R13xR13, 4x4, and 2R3x2R3 silicene layers. The Si-O-Si bonds are the most energy-favored species formed on R13xR13, 4x4, and 2R3x2R3 structures under oxidation, which is verified by in-situ Raman spectroscopy as well as first-principles calculations. The silicene monolayers retain their structures when fully covered by oxygen adatoms. Our work demonstrates the feasibility of tuning the band gap of silicene with oxygen adatoms, which, in turn, expands the base of available two-dimensional electronic materials for devices with properties that is hardly achieved with graphene oxide.

preprint2014arXivOpen access
Yi DuJincheng ZhuangHongsheng LiuXun XuStefan EilersKehui WuPeng ChengJijun ZhaoXiaodong PiKhay Wai SeeGermanas PeleckisXiaolin WangShi Xue Dou
cond-mat.mtrl-sci
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Yi DuJincheng ZhuangHongsheng LiuXun XuStefan EilersKehui WuPeng ChengJijun ZhaoXiaodong PiKhay Wai SeeGermanas PeleckisXiaolin WangShi Xue Dou

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Tuning the Band Gap in Silicene by Oxidation | BZPEER | BZPEER