Issue 28, 2023

Origin of p-type conductivity in a WSe2 monolayer

Abstract

Transition-metal dichalcogenides have promising potentials for high-performance electronic and optoelectronic applications, which could be deeply influenced by defects, including native defects and dopants. Experiments to date have frequently reported p-type conductivity in the WSe2 monolayer, but the origin remains elusive. Here, using the first-principles calculations, we systematically investigate the point defects in the WSe2 monolayer and show that: (1) no intrinsic point defect is responsible for the p-type doping; (2) hydrogen interstitials (Hi) are possible sources for n-type conductivity; (3) oxygen substitution of Se (OSe) can greatly promote the formation of adjacent W vacancy (VW), and finally make VW relatively shallow acceptors by forming the defect complex nOSe + VW (n = 1 to 6). Our work reveals that nOSe + VW is the origin of the p-type conductivity in the unintentionally doped WSe2 monolayer, given that O is present throughout the synthesis conditions of WSe2.

Graphical abstract: Origin of p-type conductivity in a WSe2 monolayer

Supplementary files

Article information

Article type
Paper
Submitted
22 Mar 2023
Accepted
24 Jun 2023
First published
26 Jun 2023

Nanoscale, 2023,15, 12116-12122

Origin of p-type conductivity in a WSe2 monolayer

Y. Zhang, G. Zhu and J. Yang, Nanoscale, 2023, 15, 12116 DOI: 10.1039/D3NR01321A

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