通过激光辐照实现单层 MoS2 的原位掺杂效应

Peng Wang, Bo Gao, Wenjun Liu
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摘要

具有单原子层的二维(2D)半导体材料显示出非凡的结构对称性和带状结构,使它们成为研究自旋谷耦合效应和制造新型光电器件的最有前途的候选材料。由于它们的原子层很薄,因此也很容易通过等离子处理或热退火来调整它们的激子光学响应。在本研究中,我们介绍了一种简单的技术,通过在环境条件下对单层 MoS2 进行短暂的激光照射来改变其光学特性。最初,这种照射导致光致发光(PL)强度增加了近两倍,中性激子强度增加,而三离子激子强度降低。我们认为,与氧有关的官能团(如周围空气中的 O2 和 H2O)吸附到 MoS2 上并萃取出额外的电子,从而增强了激子发射,同时降低了三离子发射。在随后的阶段,随着所有额外电子的耗尽,两个激子的强度都会降低。此外,任何结构畸变或潜在损伤都会降低聚光强度,这些变化与拉曼光谱的改变有关。
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In situ doping effect in monolayer MoS2 via laser irradiation
Two-dimensional (2D) semiconducting materials with a single atomic layer display exceptional structural symmetry and band structures, making them the most promising candidates for investigating the spin-valley coupling effect and fabricating novel optoelectronic devices. Their atomic thinness also makes it easy to adjust their excitonic optical response through plasma treatment or thermal annealing. In this study, we present a simple technique for modifying the optical properties of monolayer MoS2 by briefly exposing it to laser irradiation in ambient conditions. Initially, this exposure resulted in a nearly twofold increase in photoluminescence (PL) intensity, with the neutral exciton intensity increasing while the trion exciton intensity decreased. We propose that oxygen-related functional groups, such as O2 and H2O from the surrounding air, adsorb onto MoS2 and extract extra electrons, which enhances exciton emission while reducing trion emission. In a subsequent stage, both exciton intensities decreased as all extra electrons were depleted. Additionally, any structural distortions or potential damage were found to decrease the PL intensity, and these changes were linked to alterations in the Raman spectra.
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