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Ultrafast Optical Control of Exciton Diffusion in WSe 2 /Graphene Heterostructures Revealed by Heterodyne Transient Grating Spectroscopy.

Lukas RielandJulian WagnerRobin BernhardtTianyi WangOmar Abdul-AzizPhilipp SteinEva Arianna Aurelia PognaStefano Dal ConteGiulio CerulloHamoon HedayatPaul H M van Loosdrecht
Published in: Nano letters (2024)
Using heterodyne transient grating spectroscopy, we observe a significant enhancement of exciton diffusion in a monolayer WSe 2 stacked on graphene. The diffusion dynamics can be optically tuned within a few picoseconds by altering the photoexcited carrier density in graphene. The effective diffusion constant in initial picoseconds in the WSe 2 /graphene heterostructure is (40.3 ± 4.5) cm 2 s -1 , representing a substantial improvement over (2.1 ± 0.8) cm 2 s -1 , typical for an isolated WSe 2 monolayer. This enhancement can be understood in terms of a transient screening of impurities, charge traps, and defect states in WSe 2 by photoexcited charge carriers in graphene. Furthermore, diffusion within WSe 2 is affected by interlayer interactions, such as charge transfer, varying with the incident excitation fluence. These findings underscore the dynamical nature of screening and diffusion processes in heterostructures of 2D semiconductors and graphene and provide insights for future applications of these systems in ultrafast optoelectronic devices.
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