Novel Janus GaInX3 (X = S, Se, Te) single-layers: first-principles prediction on structural, electronic, and transport properties

Tuan V Vu; Nguyen N Hieu; A A Lavrentyev; O Y Khyzhun; Chu V Lanh; A I Kartamyshev; Huynh V Phuc; Nguyen V Hieu

doi:10.1039/d1ra09458k

Novel Janus GaInX₃ (X = S, Se, Te) single-layers: first-principles prediction on structural, electronic, and transport properties

RSC Adv. 2022 Mar 11;12(13):7973-7979. doi: 10.1039/d1ra09458k. eCollection 2022 Mar 8.

Authors

Tuan V Vu^{1

2}, Nguyen N Hieu^{3

4}, A A Lavrentyev⁵, O Y Khyzhun⁶, Chu V Lanh⁷, A I Kartamyshev^{1

2}, Huynh V Phuc⁸, Nguyen V Hieu⁹

Affiliations

¹ Division of Computational Physics, Institute for Computational Science, Ton Duc Thang University Ho Chi Minh City Vietnam vuvantuan@tdtu.edu.vn.
² Faculty of Electrical & Electronics Engineering, Ton Duc Thang University Ho Chi Minh City Vietnam.
³ Institute of Research and Development, Duy Tan University Da Nang Vietnam hieunn@duytan.edu.vn.
⁴ Faculty of Natural Sciences, Duy Tan University Da Nang Vietnam.
⁵ Department of Electrical Engineering and Electronics, Don State Technical University 1 Gagarin Square 344010 Rostov-on-Don Russian Federation.
⁶ Frantsevych Institute for Problems of Materials Science, National Academy of Sciences of Ukraine 3 Krzhyzhanivsky Street 03142 Kyiv Ukraine.
⁷ Department of Physics, Vinh University 182 Le Duan Vinh City Vietnam.
⁸ Division of Theoretical Physics, Dong Thap University Dong Thap Vietnam.
⁹ Physics Department, The University of Danang - University of Science and Education Da Nang Vietnam nvhieu@ued.udn.vn.

Abstract

In this paper, the structural, electronic, and transport properties of Janus GaInX₃ (X = S, Se, Te) single-layers are investigated by a first-principles calculations. All three structures of GaInX₃ are examined to be stable based on the analysis of their phonon dispersions, cohesive energy, and Born's criteria for mechanical stability. At the ground state, The Janus GaInX₃ is a semiconductor in which its bandgap decreases as the chalcogen element X moves from S to Te. Due to the vertical asymmetric structure, a difference in the vacuum level between the two surfaces of GaInX₃ is found, leading to work functions on the two sides being different. The Janus GaInX₃ exhibit high directional isotropic transport characteristics. Particularly, GaInX₃ single-layers have high electron mobility, which could make them potential materials for applications in electronic nanodevices.