Growth-Induced Strain in Chemical Vapor Deposited Monolayer MoS2: Experimental and Theoretical Investigation
Satender Kataria, Stefan Wagner, Teresa Cusati, Alessandro Fortunelli,, Giuseppe Iannaccone, Himadri Pandey, Gianluca Fiori, Max C. Lemme

TL;DR
This study combines experimental and theoretical methods to analyze how growth temperature affects strain and optical properties in CVD-grown monolayer MoS$_2$, revealing growth-induced strain as a key factor.
Contribution
It provides a systematic investigation of growth-induced strain in monolayer MoS$_2$ using combined optical measurements and density functional theory calculations.
Findings
Growth temperature influences optical properties and strain in MoS$_2$.
Raman and PL reveal inhomogeneities linked to strain.
Theoretical modeling explains the variation in band gap energies.
Abstract
Monolayer molybdenum disulphide (MoS) is a promising two-dimensional (2D) material for nanoelectronic and optoelectronic applications. The large-area growth of MoS has been demonstrated using chemical vapor deposition (CVD) in a wide range of deposition temperatures from 600 {\deg}C to 1000 {\deg}C. However, a direct comparison of growth parameters and resulting material properties has not been made so far. Here, we present a systematic experimental and theoretical investigation of optical properties of monolayer MoS grown at different temperatures. Micro-Raman and photoluminescence (PL) studies reveal observable inhomogeneities in optical properties of the as-grown single crystalline grains of MoS. Close examination of the Raman and PL features clearly indicate that growth-induced strain is the main source of distinct optical properties. We carry out density functional…
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