Non-layered ZnSb nanoplates for room temperature infrared polarized photodetectors

Ruiqing Chai; Yunfeng Chen; Mi Zhong; Huai Yang; Faguang Yan; Meng Peng; Yujia Sun; Kaiyou Wang; Zhongming Wei; Weida Hu; Qijun Liu; Zheng Lou; Guozhen Shen

doi:10.1039/d0tc00755b

Non-layered ZnSb nanoplates for room temperature infrared polarized photodetectors

Ruiqing Chai, Yunfeng Chen, Mi Zhong, Huai Yang, Faguang Yan, Meng Peng, Yujia Sun, Kaiyou Wang, Zhongming Wei, Weida Hu, Qijun Liu, Zheng Lou^*, Guozhen Shen

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

31 Citations (Scopus)

Abstract

In-plane anisotropic two-dimensional (2D) materials with asymmetric lattices are potential candidates for high performance polarized photodetection, which provides much richer optical information than conventional photodetection, such as polarization, azimuth, and ellipticity of the targets. Herein, non-layer structured ZnSb was grown into 2D nanostructures and used to fabricate room-temperature infrared polarized photodetectors. Studies found that the synthesized 2D ZnSb nanoplates exhibited strong in-plane electrical and optical anisotropy due to the low-symmetry crystal structure. The angle-resolved electronic and incident polarization photoelectric measurements confirmed high anisotropic conductivity and linear polarization sensitivity of the ZnSb nanoplates, which are consistent with the theoretical calculations.

Original language	English
Pages (from-to)	6388-6395
Number of pages	8
Journal	Journal of Materials Chemistry C
Volume	8
Issue number	19
DOIs	https://doi.org/10.1039/d0tc00755b
Publication status	Published - 21 May 2020
Externally published	Yes

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title = "Non-layered ZnSb nanoplates for room temperature infrared polarized photodetectors",

abstract = "In-plane anisotropic two-dimensional (2D) materials with asymmetric lattices are potential candidates for high performance polarized photodetection, which provides much richer optical information than conventional photodetection, such as polarization, azimuth, and ellipticity of the targets. Herein, non-layer structured ZnSb was grown into 2D nanostructures and used to fabricate room-temperature infrared polarized photodetectors. Studies found that the synthesized 2D ZnSb nanoplates exhibited strong in-plane electrical and optical anisotropy due to the low-symmetry crystal structure. The angle-resolved electronic and incident polarization photoelectric measurements confirmed high anisotropic conductivity and linear polarization sensitivity of the ZnSb nanoplates, which are consistent with the theoretical calculations.",

author = "Ruiqing Chai and Yunfeng Chen and Mi Zhong and Huai Yang and Faguang Yan and Meng Peng and Yujia Sun and Kaiyou Wang and Zhongming Wei and Weida Hu and Qijun Liu and Zheng Lou and Guozhen Shen",

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year = "2020",

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doi = "10.1039/d0tc00755b",

language = "English",

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TY - JOUR

T1 - Non-layered ZnSb nanoplates for room temperature infrared polarized photodetectors

AU - Chai, Ruiqing

AU - Chen, Yunfeng

AU - Zhong, Mi

AU - Yang, Huai

AU - Yan, Faguang

AU - Peng, Meng

AU - Sun, Yujia

AU - Wang, Kaiyou

AU - Wei, Zhongming

AU - Hu, Weida

AU - Liu, Qijun

AU - Lou, Zheng

AU - Shen, Guozhen

PY - 2020/5/21

Y1 - 2020/5/21

N2 - In-plane anisotropic two-dimensional (2D) materials with asymmetric lattices are potential candidates for high performance polarized photodetection, which provides much richer optical information than conventional photodetection, such as polarization, azimuth, and ellipticity of the targets. Herein, non-layer structured ZnSb was grown into 2D nanostructures and used to fabricate room-temperature infrared polarized photodetectors. Studies found that the synthesized 2D ZnSb nanoplates exhibited strong in-plane electrical and optical anisotropy due to the low-symmetry crystal structure. The angle-resolved electronic and incident polarization photoelectric measurements confirmed high anisotropic conductivity and linear polarization sensitivity of the ZnSb nanoplates, which are consistent with the theoretical calculations.

AB - In-plane anisotropic two-dimensional (2D) materials with asymmetric lattices are potential candidates for high performance polarized photodetection, which provides much richer optical information than conventional photodetection, such as polarization, azimuth, and ellipticity of the targets. Herein, non-layer structured ZnSb was grown into 2D nanostructures and used to fabricate room-temperature infrared polarized photodetectors. Studies found that the synthesized 2D ZnSb nanoplates exhibited strong in-plane electrical and optical anisotropy due to the low-symmetry crystal structure. The angle-resolved electronic and incident polarization photoelectric measurements confirmed high anisotropic conductivity and linear polarization sensitivity of the ZnSb nanoplates, which are consistent with the theoretical calculations.

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U2 - 10.1039/d0tc00755b

DO - 10.1039/d0tc00755b

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VL - 8

SP - 6388

EP - 6395

JO - Journal of Materials Chemistry C

JF - Journal of Materials Chemistry C

IS - 19

ER -

Non-layered ZnSb nanoplates for room temperature infrared polarized photodetectors

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