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Ultrafast, highly-sensitive infrared photodetectors based on two-dimensional oxyselenide crystals

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arxiv 1712.05942 v1 pith:4COZVTNM submitted 2017-12-16 cond-mat.mtrl-sci

Ultrafast, highly-sensitive infrared photodetectors based on two-dimensional oxyselenide crystals

classification cond-mat.mtrl-sci
keywords infraredhighmaterialsoxyselenidecrystalsdetectorselectronichighly-sensitive
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Infrared detection and sensing is deeply embedded in modern technology and human society and its development has always been benefitting from the discovery of new photoelectric response materials. The rise of two-dimensional (2D) materials, thanks to their distinct electronic structure, extreme dimensional confinement and strong light-matter interactions, provides new material platform for next-generation infrared photodetection. Ideal infrared detectors should have fast respond, high sensitivity and air-stability, which is rare to meet at the same time for all existing 2D materials, either graphene, transition metal dichalcogenide or black phosphorous. Herein we demonstrate a new infrared photodetector based on 2D Bi2O2Se crystals, whose main characteristics are superb in the whole 2D family: high sensitivity of ~65 A/W at 1200 nm and ultrafast intrinsic photoresponse of ~1 ps at room temperature. Such great performance is attributed to the suitable electronic bandgap and high carrier mobility of 2D oxyselenide. With additional merits of mass production, excellent stability and flexibility, 2D oxyselenide detectors should open new avenues in highly-sensitive, high-speed, low-cost, flexible infrared photodetection and imaging.

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