Experimental Evidence of Anisotropic and Stable Charged Excitons (Trions) in Atomically Thin 2D ReS2

Experimentally observed, stable trions with large binding energy (≈25 meV) in atomically thin monolayer 2D transition metal dichalcogenides MX2 (M = Mo, W, X = S, Se, and Te) with an isotropic crystal structure have been extensively studied. In contrast, the characteristics of trions in atomically t...

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Bibliographic Details
Published in:Advanced functional materials 2019-12, Vol.29 (51), p.n/a
Main Authors: Wang, Xiaofan, Shinokita, Keisuke, Miyauchi, Yuhei, Cuong, Nguyen Thanh, Okada, Susumu, Matsuda, Kazunari
Format: Article
Language:English
Subjects:
Anisotropy
Binding energy
Crystal structure
Excitons
Materials science
Photoluminescence
quasi‐1D materials
ReS2
Thickness
Transition metal compounds
Trions
Two dimensional materials
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Summary:Experimentally observed, stable trions with large binding energy (≈25 meV) in atomically thin monolayer 2D transition metal dichalcogenides MX2 (M = Mo, W, X = S, Se, and Te) with an isotropic crystal structure have been extensively studied. In contrast, the characteristics of trions in atomically thin 2D materials with an anisotropic crystal structure are not completely understood. Low‐temperature photoluminescence (PL) spectroscopy in few‐layer ReS2 with an anisotropic crystal structure by applying a gate voltage is described. A new PL peak that emerges below the lower‐energy side of neutral excitons obtained by tuning the gate voltages is attributed to emission from negative trions. Furthermore, the trion binding energy that is strongly dependent on the layer thickness reaches a large value of ≈60 meV in 1L–ReS2, which is ≈2 times larger than that in other isotropic 2D materials (MX2). The enhancement of the binding energy reflects the quasi‐1D nature of the trions in anisotropic atomically thin ReS2. These experimental observations will promote a better understanding of the optical response and applications in new categories of the anisotropic atomically thin 2D materials with a quasi‐1D nature. Charged excitons (trions), with a large binding energy (≈60 meV) in anisotropic, atomically thin rhenium dichalcogenides (ReS2), are discovered by tuning carrier density. Strongly polarized anisotropic emission from these trions are also experimentally observed.
ISSN:1616-301X
1616-3028
DOI:10.1002/adfm.201905961