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Paper detail

Electronic Structure and Structural Evolutions of Hydrogenated Graphene Probed by Raman Spectroscopy

The electronic structure and structural evolution of hydrogenated graphene are investigated by Raman spectroscopy with multiple excitations. The excitation energy dependent saturation effect on the ratio of integrated intensities of D and G modes (ID/IG) is revealed and further developed as a quick method for estimation of inter-defect distance and defect density in hydrogenated graphene. At low hydrogen coverage, the chemisorbed H atoms behave like defects in sp2 C=C matrix; while for a high hydrogen coverage, the sp3 C-H bonds become coalescent clusters, resulting in confinement effect on the sp2 C domains. Electronic structure changes caused by varying hydrogen coverage are evidenced by excitation energy dependent red shift of D and 2D bands. Our results provide a useful guide for developing applications of hydrogenated graphene, as well as using Raman spectroscopy as quick metrology of the defect density in further exploring other kinds of graphene derivatives.

preprint2010arXivOpen access
Zhiqiang LuoTing YuZhenhua NiSanhua LimJingzhi ShangHailong HuLei LiuZexiang ShenJianyi Lin
cond-mat.mtrl-sci
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Zhiqiang LuoTing YuZhenhua NiSanhua LimJingzhi ShangHailong HuLei LiuZexiang ShenJianyi Lin

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