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Broad‐Spectrum Photodetection with High Sensitivity Via Avalanche Multiplication in WSe 2

2022; Wiley; Volume: 10; Issue: 22 Linguagem: Inglês

10.1002/adom.202201196

2195-1071

Haeju Choi, Seunghyuk Choi, Taeho Kang, Hyeonje Son, Chanwoo Kang, E. H. Hwang, Sungjoo Lee,

Ga2O3 and related materials

Abstract High‐sensitivity broad‐spectrum photodetectors with detection capabilities ranging from ultraviolet to infrared have attracted significant attention for their application as photodetectors. They can be used as a receiver for all applications in optical communication for covering a wide spectral range with a single photodetector, which can significantly lower the overall system cost. In this study, by constructing an avalanche photodetector (APD) fabricated with 2D WSe 2 , a high photoresponsivity of over 10 7 A W −1 for a broad spectrum of 405–1310 nm is achieved under an electric field higher than the critical field for the avalanche multiplication of 35 kV cm −1 , overcoming the limitation of the detectable wavelength induced by the energy bandgap of the material. The benchmark in terms of the photocurrent‐to‐dark current ratio and responsivity over a wide wavelength range demonstrates that the fabricated WSe 2 APD outperforms the reported 2D layered material‐based APDs and reported WSe 2 photodetectors. The obtained results can be attributed to the high‐gain mechanism via avalanche multiplication and phonon‐assisted photogeneration in WSe 2 , enabling efficient photodetection beyond sub‐bandgap wavelengths. This result provides a promising general approach for developing a single photodetector that can cover a broad spectral range with a high sensitivity for future optical communication.