High-enhancement photoluminescence of monolayer MoS<sub>2</sub> in hybrid plasmonic systems

Yan Huang; Yan Huang; Ruoying Kanyang; Ruoying Kanyang; Cizhe Fang; Cizhe Fang; Xiaoxi Li; Xiaoxi Li; Xiangyu Zeng; Xiangyu Zeng; Yibo Wang; Yibo Wang; Yan Liu; Yan Liu; Yue Hao; Genquan Han; Genquan Han

doi:10.1364/AO.517514

Applied Optics
Vol. 63,
Issue 10,
pp. 2704-2709
(2024)
•https://doi.org/10.1364/AO.517514

High-enhancement photoluminescence of monolayer MoS₂ in hybrid plasmonic systems

Yan Huang, Ruoying Kanyang, Cizhe Fang, Xiaoxi Li, Xiangyu Zeng, Yibo Wang, Yan Liu, Yue Hao, and Genquan Han

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Yan Huang, Ruoying Kanyang, Cizhe Fang, Xiaoxi Li, Xiangyu Zeng, Yibo Wang, Yan Liu, Yue Hao, and Genquan Han, "High-enhancement photoluminescence of monolayer MoS₂ in hybrid plasmonic systems," Appl. Opt. 63, 2704-2709 (2024)

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Table of Contents Category
- Surface Optics and Plasmonics
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About this Article
History
- Original Manuscript: January 2, 2024
- Revised Manuscript: February 27, 2024
- Manuscript Accepted: February 29, 2024
- Published: March 27, 2024

Abstract

Monolayer molybdenum disulfide (${{\rm MoS}_2}$) has a weak light-matter interaction due to ultrathin thickness, which limits its potential application in lasing action. In this study, we propose a hybrid structure consisting of a nanocavity and Au nanoparticles to enhance the photon emission efficiency of monolayer ${{\rm MoS}_2}$. Numerical simulations show that photoluminescence (PL) emission is significantly enhanced by introducing localized surface plasmon resonance (LSPR) to the proposed structure. Furthermore, an exciton energy band system is proposed to elucidate the physical mechanism of the PL process. By optimizing the spacer thickness, a high Purcell enhancement factor of 95 can be achieved. The results provided by this work pave the way to improve the PL efficiency of two-dimensional (2D) material, which constitutes a significant step towards the development of nanodevices such as nanolasers and sensors.

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Year	Ref.	Structure	Purcell Enhancement Factor	PL Intensity
2017	[46]*	Au $N P s / {M o S}_{2} / {S i O}_{2} / S i$ Sub	0.7	7000
2017	[28]*	Au $s p i r a l r i n g / {M o S}_{2} / {S i O}_{2} / A u / S i$ Sub	1	9500
2017	[47]	Au $b o w t i e / {M o S}_{2} / {S i O}_{2} / S i$ Sub	6	5500
2021	[48]*	${M o S}_{2} / A u$ NPs/Si Sub	1.5	1800
2022	18*	${M o S}_{2} / {S i O}_{2} / S i$ Sub	9	8000
2024	This work	Au $N P s / S p a c e r / {M o S}_{2} / S p a c e r / A u / S i$ Sub	95	11500

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