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Electronic structure and interface contact of two-dimensional van der Waals boron phosphide/Ga2SSe heterostructures

In this work, we systematically examine the electronic features and contact types of van der Waals heterostructures (vdWHs) combining single-layer boron phosphide (BP) and Janus Ga2SSe using first-principles calculations. Owing to the out-of-plane symmetry being broken, the BP/Ga2SSe vdWHs are divid...

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Published in:	RSC advances 2022-06, Vol.12 (30), p.19115-19121
Main Authors:	Hoang-Thinh Do, Vu, Tuan V, Lavrentyev, A A, Cuong, Nguyen Q, Cuong, Pham V, Tong, Hien D
Format:	Article
Language:	English
Subjects:	Alignment Boron phosphides Chemistry Electric contacts Electric fields Electronic structure First principles Heterostructures Interlayers Modulus of elasticity Optoelectronic devices Photovoltaic cells Stacking
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creator	Hoang-Thinh Do Vu, Tuan V Lavrentyev, A A Cuong, Nguyen Q Cuong, Pham V Tong, Hien D
description	In this work, we systematically examine the electronic features and contact types of van der Waals heterostructures (vdWHs) combining single-layer boron phosphide (BP) and Janus Ga2SSe using first-principles calculations. Owing to the out-of-plane symmetry being broken, the BP/Ga2SSe vdWHs are divided into two different stacking patterns, which are BP/SGa2Se and BP/SeGa2S. Our results demonstrate that these stacking patterns are structurally and mechanically stable. The combination of single-layer BP and Janus Ga2SSe gives rise to an enhancement in the Young’s modulus compared to the constituent monolayers. Furthermore, at the ground state, the BP/Ga2SSe vdWHs possess a type-I (straddling) band alignment, which is desired for next-generation optoelectronic applications. The interlayer separation and electric field are effectively used to tune the electronic features of the BP/Ga2SSe vdWH from the type-I to type-II band alignment, and from semiconductor to metal. Our findings show that the BP/Ga2SSe vdWH would be appropriate for next-generation multifunctional optoelectronic and photovoltaic devices.
doi_str_mv	10.1039/d2ra02748h
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Owing to the out-of-plane symmetry being broken, the BP/Ga2SSe vdWHs are divided into two different stacking patterns, which are BP/SGa2Se and BP/SeGa2S. Our results demonstrate that these stacking patterns are structurally and mechanically stable. The combination of single-layer BP and Janus Ga2SSe gives rise to an enhancement in the Young’s modulus compared to the constituent monolayers. Furthermore, at the ground state, the BP/Ga2SSe vdWHs possess a type-I (straddling) band alignment, which is desired for next-generation optoelectronic applications. The interlayer separation and electric field are effectively used to tune the electronic features of the BP/Ga2SSe vdWH from the type-I to type-II band alignment, and from semiconductor to metal. 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subjects	Alignment Boron phosphides Chemistry Electric contacts Electric fields Electronic structure First principles Heterostructures Interlayers Modulus of elasticity Optoelectronic devices Photovoltaic cells Stacking
title	Electronic structure and interface contact of two-dimensional van der Waals boron phosphide/Ga2SSe heterostructures
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