First-principles study of the electronic and optical properties of Nb-doped MoSe2 by tensile strain

Author:

Su Dan1,Liu Guili1ORCID,Gao Xuewen1,He Jianlin1,Chen Yuling1,Zhao Jingwei1,Zhang Guoying2

Affiliation:

1. College of Architecture and Civil Engineering, Shenyang University of Technology, Shenyang, Liaoning, China

2. School of Physics, Shenyang Normal University, Shenyang, Liaoning, China

Abstract

A first-principles method was used to explore the influence of tensile strain on the electrical and optical characteristics of Nb-doped MoSe2. The tensile strain has been discovered to have a higher influence on the electrical structure of the Nb-doped MoSe2 system than pure monolayer MoSe2. According to the energy band structure study, the pure monolayer MoSe2 is a direct bandgap semiconductor, but the system doped with Nb instead of Mo atoms is a p-type-doped semiconductor. The bandgap of the Nb-doped MoSe2 system decreases gradually with the increase of tensile strain, but still maintains the p-type semiconductor properties, and the bandgap of the pure monolayer MoSe2 also decreases gradually with the increase of tensile strain. From the density of states analysis, it is found that for the total density of states of the doped system at different tensile strains, it is mainly contributed by the Mo-4d and Se-4p orbitals. The optical properties analysis showed that the doped system under tensile strain had higher absorption coefficient and reflectance peak than the Nb-doped MoSe2 system without tensile strain. Additionally, the doped system showed redshift phenomenon in both the absorption and reflection peaks as the tensile strain increased.

Funder

National Natural Science Foundation of China

Natural Science Foundation of Liaoning Province

Educational Department of Liaoning Province

Publisher

World Scientific Pub Co Pte Ltd

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