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W3022606768 abstract "Organic UV photodetectors using a transistor architecture can yield higher photoresponsivity than diode-based devices because of the presence of a gate electrode. However, a long-term issue of these phototransistor devices is the slow response speed, which hinders their practical applications. Here, organic UV phototransistors are constructed using few-layer organic crystalline van der Waals (vdW) heterojunctions as the photoactive layers. The thickness of the photoactive layers is even less than the exciton diffusion length, thus removing the exciton-diffusion bottleneck and giving rise to the confinement of charge separation and recombination within the adjacent molecular layers across the heterojunction interface. Hence, the phototransistor devices can exhibit a remarkably enhanced response speed (rise and decay times as short as only ≈4 and 6 ms, respectively). The layer-dependent photoresponse characteristics are also observed, reinforcing the great importance of few-layer organic heterostructures in phototransistor devices. This work not only provides a promising avenue toward fast response optoelectronic devices but also presents an in-depth understanding on the microscopic nature of photogenerated charge carriers at the precision of molecular layers." @default.
W3022606768 created "2020-05-13" @default.
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W3022606768 date "2020-05-11" @default.
W3022606768 modified "2023-10-16" @default.
W3022606768 title "Few‐Layer Organic Crystalline van der Waals Heterojunctions for Ultrafast UV Phototransistors" @default.
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W3022606768 doi "https://doi.org/10.1002/aelm.202000062" @default.
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