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   https://doi.org/10.1021/acsnano.0c02803  

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2. Interlayer Exciton Transport in MoSe ₂ /WSe ₂ Heterostructures

   https://doi.org/10.1021/acsnano.0c08981  

   Li, Zidong; Lu, Xiaobo; Cordovilla Leon, Darwin F.; Lyu, Zhengyang; Xie, Hongchao; Hou, Jize; Lu, Yanzhao; Guo, Xiaoyu; Kaczmarek, Austin; Taniguchi, Takashi; et al (January 2021, ACS Nano)

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3. Disorder of excitons and trions in monolayer MoSe ₂

   https://doi.org/10.1063/5.0108001  

   Wang, Jue; Manolatou, Christina; Bai, Yusong; Hone, James; Rana, Farhan; Zhu, X. -Y. (December 2022, The Journal of Chemical Physics)

   The optical spectra of transition metal dichalcogenide monolayers are dominated by excitons and trions. Here, we establish the dependence of these optical transitions on the disorder from hyperspectral imaging of h-BN encapsulated monolayer MoSe₂. While both exciton and trion energies vary spatially, these two quantities are almost perfectly correlated, with spatial variation in the trion binding energy of only ∼0.18 meV. In contrast, variation in the energy splitting between the two lowest energy exciton states is one order of magnitude larger at ∼1.7 meV. Statistical analysis and theoretical modeling reveal that disorder results from dielectric and bandgap fluctuations, not electrostatic fluctuations. Our results shed light on disorder in high quality TMDC monolayers, its impact on optical transitions, and the many-body nature of excitons and trions. 

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4. Photocarrier Transfer across Monolayer MoS ₂ –MoSe ₂ Lateral Heterojunctions

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