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High-responsivity Broad-Band Sensing and Photoconduction Mechanism in Direct-Gap Α-In2se3 Nanosheet Photodetectors

Nanotechnology(2020)

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Abstract
Photoconductivities (PCs) with high responsivity in two-dimensional (2D) diindium triselenide (In2Se3) nanostructures with alpha-phase hexagonal structure were studied. The In(2)Se(3)nanosheet photodetectors fabricated by focused-ion beam technique exhibit broad spectral response with wavelength range from 300 nm to 1000 nm. The In(2)Se(3)nanosheets achieve optimal responsivity of 720 A W(-1)in near-infrared region (808 nm), and detectivity of 2.2 x 10(12)Jones, which were higher than several 2D material photodetectors. The physical origins that result in high photoresponse in In(2)Se(3)nanosheets such as carrier lifetime and mobility were also characterized by time-resolved PC and field-effect transistor measurements. The fast (hundred microseconds to milliseconds) and slow (seconds and longer) current rise or decay processes were both observed during the photoresponse. The narrowing (or relaxation) of depletion region and oxygen-sensitized photoconduction mechanism were suggested to be the causes of the efficient photoresponse in the In(2)Se(3)nanostructure detectors. All these observations suggest that alpha-In(2)Se(3)nanosheets could be a promising candidate for photosensitive material applications.
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Key words
In2Se3,layered semiconductor,photodetector,photoconductivity,responsivity,carrier lifetime,mobility
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