Impeding Exciton–Exciton Annihilation in Monolayer WS2 by Laser Irradiation

激子 光致发光 材料科学 辐照 激光器 单层 比克西顿 激发 半导体 消灭 分子物理学 光电子学 凝聚态物理 化学 纳米技术 光学 物理 量子力学 核物理学
作者
Yongjun Lee,Ganesh Ghimire,Shrawan Roy,Young‐Bum Kim,Changwon Seo,A. K. Sood,Joon I. Jang,Jeongyong Kim
出处
期刊:ACS Photonics [American Chemical Society]
卷期号:5 (7): 2904-2911 被引量:73
标识
DOI:10.1021/acsphotonics.8b00249
摘要

Monolayer (1L) transition metal dichalcogenides (TMDs) are two-dimensional direct-bandgap semiconductors with promising applications of quantum light emitters. Recent studies have shown that intrinsically low quantum yields (QYs) of 1L-TMDs can be greatly improved by chemical treatments. However, nonradiative exciton–exciton annihilation (EEA) appears to significantly limit light emission of 1L-TMDs at a nominal density of photoexcited excitons due to strong Coulomb interaction. Here we show that the EEA rate constant (γ) can be reduced by laser irradiation treatment in mechanically exfoliated monolayer tungsten disulfide (1L-WS2), causing significantly improved light emission at the saturating optical pumping level. Time-resolved photoluminescence (PL) measurements showed that γ reduced from 0.66 ± 0.15 cm2/s to 0.20 ± 0.05 cm2/s simply using our laser irradiation. The laser-irradiated region exhibited lower PL response at low excitation levels, however at the high excitation level displayed 3× higher PL intensity and QY than the region without laser treatment. The shorter PL lifetime and lower PL response at low excitation levels suggested that laser irradiation increased the density of sulfur vacancies of 1L-WS2, but we attribute these induced defects, adsorbed by oxygen in air, to the origin for reduced EEA by hindering exciton diffusion. Our laser irradiation was likewise effective for reducing EEA and increasing PL of chemically treated 1L-WS2 with a high QY, exhibiting the general applicability of our method. Our results suggest that exciton–exciton interaction in 1L-TMDs may be conveniently controlled by the laser treatment, which may lead to unsaturated exciton emission at high excitation levels.

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