4.8 Article

Polarization-Sensitive, Self-Powered, and Broadband Semimetal MoTe2/MoS2 van der Waals Heterojunction for Photodetection and Imaging

期刊

ACS APPLIED MATERIALS & INTERFACES
卷 15, 期 36, 页码 43135-43144

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acsami.3c07709

关键词

1T' MoTe2; polarization-sensitive; heterojunction; photodetector; polarized imaging

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This study demonstrates the use of a MoTe2/MoS2 2D heterojunction to improve the performance of photodetectors and achieve polarization-sensitive, self-powered, and broadband photodetection and imaging. The device has a self-powered photoresponse ranging from 520 to 1550 nm due to the built-in electric field of the heterojunction. Under 915 nm light illumination, the device shows outstanding performance, including high responsivity, specific detectivity, fast rise/decay time, and high on/off ratio. The polarization imaging capabilities of the device in scattering surroundings are also demonstrated, with significant contrast enhancement compared to S-0. This work opens up new avenues for developing high-performance polarization-sensitive photodetection and next-generation polarized imaging using anisotropic semimetals heterojunction photodetectors.
The emerging type II Weyl semimetal 1T' MoTe2 as a promising material in polarization-sensitive photodetectors has aroused much attention due to its narrow bandgap and intrinsic inplane anisotropic crystal structure. However, the semimetal properties lead to a large dark current and a low response. Herein, we demonstrate for the first time an all-2D semimetal MoTe2/ MoS2 van der Waals (vdWs) heterojunction to improve the performance of the photodetectors and realize polarizationsensitive, self- powered, and broadband photodetection and imaging. Owing to the built-in electric field of the heterojunction, the device achieves a self-powered photoresponse ranging from 520 to 1550 nm. Under 915 nm light illumination, the device demonstrates outstanding performance, including a high responsivity of 79 mA/W, a specific detectivity of 1.2 x 10(10) Jones, a fast rise/decay time of 180/202 mu s, and a high on/off ratio of 1.3 x 10.(3) Wavelength-dependent photocurrent anisotropic ratio is revealed to vary from 1.10 at 638 nm to 2.24 at 1550 nm. Furthermore, we demonstrate the polarization imaging capabilities of the device in scattering surroundings, and the DoLP and AoLP images achieve 78% and 112% contrast enhancement, respectively, compared to the S-0. This work opens up new avenues to develop anisotropic semimetals heterojunction photodetectors for highperformance polarization-sensitive photodetection and next-generation polarized imaging.

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