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Enhanced Light Emission from Monolayer Semiconductors by Forming Heterostructures with ZnO Thin Films

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Title
Enhanced Light Emission from Monolayer Semiconductors by Forming Heterostructures with ZnO Thin Films
Author(s)
Min Su Kim; Shrawan Roy; Jubok Lee; Byung Gu Kim; Hyun Kim; Ji-Hoon Park; Seok Joon Yun; Gang Hee Han; Jae-Young Leem; Jeongyong Kim
Subject
2D semiconductors, ; charge transfer, ; excitons, ; molybdenum diselenide, ; molybdenum disulfide, ; photoluminescence, ; tungsten diselenide
Publication Date
2016-10
Journal
ACS APPLIED MATERIALS & INTERFACES, v.8, no.42, pp.28809 - 28815
Publisher
AMER CHEMICAL SOC
Abstract
Monolayer transition-metal dichalcogenides (1L-TMDs) are atomically thin direct band gap semiconductors, from which the emission of light is determined by optical transitions of exciton complexes such as neutral excitons and trions. While the quantum yields of 1L-TMDs are quite low, the ability to control the populations of exciton complexes in 1L-TMDs through various doping processes is an interesting advantage, and provides ample possibilities for engineering the optical properties of these semiconductor monolayers. Here we demonstrate a simple method of controlling the populations of excitons and trions to enhance the light emission of 1L-TMDs by having them form heterostructures with ZnO thin films (TFs). 1Ls of MoS2 or MoSe2 showed up to 17-fold increases in photoluminescence (PL) when they were placed on ∼50 nm thick ZnO TFs. This enhancement of the PL was due to charge exchanges occurring through the 1L-TMD/ZnO interface. The PL enhancements and changes in the PL spectra of the 1L-TMDs were greater when the 1L-TMD/ZnO heterostructures were subjected to 355 nm wavelength laser excitation than when they were excited with a 514 nm wavelength laser, which we attributed to the onset of energy transfer by photoexcited excitons and/or the additional p-doping by photoexcited holes in ZnO. The p-doping phenomenon and the enhanced light emission of 1L-TMD/ZnO heterostructures were unambiguously visualized in spatially resolved PL and Raman spectral maps. Our approach using the 1L-TMD/ZnO TF heterostructure suggests that a rich variety of options for engineering the optical properties of 1L-TMDs may be made available by carrying out simple and intuitive manipulations of exciton complexes, and these endeavors may yield practical applications for 1L-TMDs in nanophotonic devices. © 2016 American Chemical Society
URI
https://pr.ibs.re.kr/handle/8788114/3262
DOI
10.1021/acsami.6b08003
ISSN
1944-8244
Appears in Collections:
Center for Integrated Nanostructure Physics(나노구조물리 연구단) > 1. Journal Papers (저널논문)
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