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Computational prediction of electronic and optical properties of Janus Ga2SeTe monolayer

Vu, T.V. and Vi, V.T.T. and Nguyen, C.V. and Phuc, H.V. and Hieu, N.N. (2020) Computational prediction of electronic and optical properties of Janus Ga2SeTe monolayer. Journal of Physics D: Applied Physics, 53 (45): 455302. ISSN 223727

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Abstract

Janus group III monochalcogenide structures, which are predicted to have many promising applications in optoelectronics and photocatalytic water splitting, have been of particular interest recently. In this study, electronic properties and optical characteristics of the Janus Ga2SeTe monolayer under a biaxial strain ϵ b and electric field E were considered using the density functional theory. Our calculations demonstrated that the Janus Ga2SeTe monolayer is dynamically and thermally stable and exhibits a semiconducting characteristic with a moderate direct band gap at equilibrium. The band gap of Janus Ga2SeTe monolayer at equilibrium, which is calculated by PBE method and corrected by HSE06 hybrid functional, is smaller than that of both GaSe and GaTe monolayers. Mulliken population analysis shows that there has been a redistribution of charge during the formation of the Janus structure, especially there is a large difference in charge between the two Ga layers in Janus Ga2SeTe monolayer. The biaxial strain has greatly altered the electronic structure of the Janus Ga2SeTe monolayer and direct-indirect band gap transitions were found at appropriate strain ϵ b . While the effect of the E on electronic properties and especially optical properties is weak, the optical absorbance of the Janus Ga2SeTe monolayer can be enhanced by strain engineering, up to 14.42 × 104 cm-1 at ϵ b =-7% in the near-ultraviolet region. The optical absorbance of the Janus Ga2SeTe monolayer is activated in the visible light region that is following its calculated band gap value. This work not only systematically presents the electronic and optical properties of the Janus Ga2SeTe monolayer in the presence of strain engineering and electric field but can also motivate experimental studies for applications in nanoelectromechanical and optoelectronic devices. © 2020 IOP Publishing Ltd.

Item Type: Article
Divisions: Faculties > Faculty of Mechanical Engineering
Identification Number: 10.1088/1361-6463/aba38d
Uncontrolled Keywords: Computation theory; Density functional theory; Electric fields; Electronic properties; Electronic structure; Energy gap; Gallium compounds; Layered semiconductors; Monolayers; Optical properties; Optoelectronic devices; Computational predictions; Electronic and optical properties; Mulliken population analysis; Nano-electromechanical; Near-ultraviolet regions; Optical characteristics; Photocatalytic water splitting; Visible light region; Selenium compounds
Additional Information: Language of original document: English.
URI: http://eprints.lqdtu.edu.vn/id/eprint/8870

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