Theoretical investigation on electronic and optical properties of the graphene-MoSe2-graphene sandwich heterostructure

We theoretically investigated the structural stability, electronic and optical properties of the sandwich graphene-MoSe2-graphene (G-MoSe2-G) heterostructure via the density functional theory (DFT). The simulation revealed that the relative movement of the layers along the plane can hardly affect th...

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Bibliographic Details
Published in:Materials & design 2019-12, Vol.183, p.108129, Article 108129
Main Authors: Sun, Zhenlu, Chu, Hongwei, Li, Ying, Zhao, Shengzhi, Li, Guiqiu, Li, Dechun
Format: Article
Language:English
Subjects:
2D materials
Electronic properties
First principles
Optical properties
Sandwich heterostructure
Stress sensor
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Summary:We theoretically investigated the structural stability, electronic and optical properties of the sandwich graphene-MoSe2-graphene (G-MoSe2-G) heterostructure via the density functional theory (DFT). The simulation revealed that the relative movement of the layers along the plane can hardly affect the electronic and optical properties, as well as the structural stability. However, both the vertical and biaxial strain applied to the sandwich heterostructure can significantly modify the band structure, which results in the change of electronic and optical properties. We elucidated the mechanism for the band tuning by examining the projected band structure and the charge transfer between graphene and MoSe2 layers. In the meantime, the absorption peak at ∼ 1.3 μm shifted with the increase of the strain. We believe that the sandwich heterostructure can be of great interest for applications as optical modulators, sensors and photodetectors. [Display omitted] •Electronic and optical properties of Graphene-MoSe2-Graphene were investigated by the first principles method.•The vertical stress forced MoSe2 to give electrons to the graphene, leading to the variation of optical properties.•The biaxial strain changed the electronic coupling effect, resulting in the resonant wavelength shift.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2019.108129