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Band Gap Modulation of Bilayer MoS2 Under Strain Engineering and Electric Field: A Density Functional Theory

Nguyen, C.V. and Hieu, N.N. and Ilyasov, V.V. (2016) Band Gap Modulation of Bilayer MoS2 Under Strain Engineering and Electric Field: A Density Functional Theory. Journal of Electronic Materials, 45 (8). pp. 4038-4043. ISSN 3615235

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Abstract

In this work, we investigate band-gap tuning in bilayer MoS2 by an external electric field and by applied biaxial strain. Our calculations show that the band gaps of bilayer MoS2 can be tuned by the perpendicular electric field or biaxial strain. The band gaps of bilayer MoS2 decrease with increasing applied electric field or biaxial strain. When the electric field was introduced, electronic levels are split due to the separation of the valence sub-band and the conduction sub-band states. Our calculations also show that the change in the band gap of bilayer MoS2 is due to the separation of electronic levels by electric field via the Stark effect. At the electric field EField= 5.5 V/nm or biaxial strain ε= 15 % , bilayer MoS2 becomes metallic. The semiconductor–metal phase transition in bilayer MoS2 plays an important role in its application for nanodevices. © 2016, The Minerals, Metals & Materials Society.

Item Type: Article
Divisions: Faculties > Faculty of Mechanical Engineering
Identification Number: 10.1007/s11664-016-4593-3
Uncontrolled Keywords: Density functional theory; Electric fields; Molybdenum compounds; Band-gap tuning; Bandgap modulation; Biaxial strains; Electronic levels; External electric field; ITS applications; Nano-devices; Strain engineering; Energy gap
Additional Information: Language of original document: English.
URI: http://eprints.lqdtu.edu.vn/id/eprint/9821

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