Electronic and optical properties of GaN/MoSe2 and its vacancy heterojunctions studied by first-principles

Author:

Ma Lei1ORCID,Li Meng-Na1ORCID,Zhang Li-Li1ORCID

Affiliation:

1. Xinjiang Laboratory of Phase Transitions and Microstructures in Condensed Matter Physics, College of Physical Science and Technology, Yili Normal University , Yining, Xinjiang 835000, China

Abstract

Heterojunction GaN/MoSe2 has recently piqued the interest of researchers due to its exceptional electronic and optical properties. Despite this, the higher rate of photogenerated carrier recombination limits their technical application. Implementing a promising approach to the formation of the 2D heterostructure with vacancies may improve photocatalytic activity. By first-principles, the stability, electronic structure, and optical properties of monolayer GaN and MoSe2, GaN/MoSe2 (GN/MS), GaN/MoSe2 with a Ga vacancy (VGa-GN/MS), GaN/MoSe2 with an N vacancy (VN-GN/MS), and GaN/MoSe2 with vacancies of Ga and N (VGa@N-GN/MS) are systematically computed. Compared with monolayer GaN, MoSe2, and GaN/MoSe2, the results show that vacancies do not destroy the stability of heterojunctions and cause a decrease in their bandgaps and a redshift of the absorption spectra. Type-II band alignment is observed through Perdew–Burke–Ernzerhof calculations in all heterostructures. VGa-GN/MS and VGa@N-GN/MS are p-type semiconductors, while VN-GN/MS is an n-type semiconductor. Based on the analysis of Mulliken occupancy, work function, and optical properties, we speculate that vacancies of Ga and N cause GN/MS to be energetically favorable for water splitting.

Funder

Open Projet of Key Laboratory of Xinjiang Uygur Autonomous Region

Xinjiang Research Projects for Colleges and Universities

Publisher

AIP Publishing

Subject

General Physics and Astronomy

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