Room-Temperature Blackbody-Sensitive and Fast Infrared Photodetectors Based on 2D Tellurium/Graphene Van der Waals Heterojunction

Meng Peng; Yiye Yu; Zhen Wang; Xiao Fu; Yue Gu; Yang Wang; Kun Zhang; Zhenhan Zhang; Min Huang; Zhuangzhuang Cui; Fang Zhong; Peisong Wu; Jiafu Ye; Tengfei Xu; Qing Li; Peng Wang; Fangyu Yue; Feng Wu; Jiangnan Dai; Changqing Chen; Weida Hu

doi:10.1021/acsphotonics.2c00246

Room-Temperature Blackbody-Sensitive and Fast Infrared Photodetectors Based on 2D Tellurium/Graphene Van der Waals Heterojunction

Meng Peng
, Yiye Yu
, Zhen Wang^*
, Xiao Fu
, Yue Gu
, Yang Wang
, Kun Zhang
, Zhenhan Zhang
, Min Huang
, Zhuangzhuang Cui
, Fang Zhong
, Peisong Wu
, Jiafu Ye
, Tengfei Xu
, Qing Li
, Peng Wang
, Fangyu Yue
, Feng Wu^*
, Jiangnan Dai^*
, Changqing Chen

Weida Hu

^*此作品的通讯作者

CAS - Shanghai Institute of Technical Physics
Huazhong University of Science and Technology
Fudan University
University of Chinese Academy of Sciences
East China Normal University

科研成果: 期刊稿件 › 文章 › 同行评审

64 引用（Scopus）

摘要

Emerging low-dimensional materials exhibit the potential in realizing next-generation room-temperature blackbody-sensitive infrared detectors. As a narrow band gap semiconductor, low-dimensional tellurium (Te) has been a focus of infrared detector research attention because of its high hole mobility, large absorptivity, and environmental stability. However, it is still a challenge to fabricate blackbody-sensitive Te-based infrared detectors with a low dark current and fast speed. In this work, a heterojunction device based on Te and graphene is constructed, achieving high detectivity and a fast response time from visible to mid-infrared. Specifically under 2 μm laser irradiation, the heterojunction photodetector exhibits a detectivity of 1.04 × 10⁹ cm Hz^1/2 W⁻¹, a fast response time of 28 μs, and good ambient stability. Moreover, the photodetector demonstrates a room-temperature blackbody sensitivity with the peak detectivity of up to 3.69 × 10⁸ cm Hz^1/2 W⁻¹ under zero bias. Linear array devices are further explored and show good performance uniformity for potential imaging applications. Our work demonstrates that the Te/graphene heterojunction detector will be one of the competitive candidates for next-generation uncooled blackbody-sensitive infrared photodetectors.

源语言	英语
页（从-至）	1775-1782
页数	8
期刊	ACS Photonics
卷	9
期	5
DOI	https://doi.org/10.1021/acsphotonics.2c00246
出版状态	已出版 - 18 5月 2022
已对外发布	是

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Peng, M., Yu, Y., Wang, Z., Fu, X., Gu, Y., Wang, Y., Zhang, K., Zhang, Z., Huang, M., Cui, Z., Zhong, F., Wu, P., Ye, J., Xu, T., Li, Q., Wang, P., Yue, F., Wu, F., Dai, J., ... Hu, W. (2022). Room-Temperature Blackbody-Sensitive and Fast Infrared Photodetectors Based on 2D Tellurium/Graphene Van der Waals Heterojunction. ACS Photonics, 9(5), 1775-1782. https://doi.org/10.1021/acsphotonics.2c00246

@article{12eea8e5130d467eb1055dc05809a5a7,

title = "Room-Temperature Blackbody-Sensitive and Fast Infrared Photodetectors Based on 2D Tellurium/Graphene Van der Waals Heterojunction",

abstract = "Emerging low-dimensional materials exhibit the potential in realizing next-generation room-temperature blackbody-sensitive infrared detectors. As a narrow band gap semiconductor, low-dimensional tellurium (Te) has been a focus of infrared detector research attention because of its high hole mobility, large absorptivity, and environmental stability. However, it is still a challenge to fabricate blackbody-sensitive Te-based infrared detectors with a low dark current and fast speed. In this work, a heterojunction device based on Te and graphene is constructed, achieving high detectivity and a fast response time from visible to mid-infrared. Specifically under 2 μm laser irradiation, the heterojunction photodetector exhibits a detectivity of 1.04 × 109 cm Hz1/2 W−1, a fast response time of 28 μs, and good ambient stability. Moreover, the photodetector demonstrates a room-temperature blackbody sensitivity with the peak detectivity of up to 3.69 × 108 cm Hz1/2 W−1 under zero bias. Linear array devices are further explored and show good performance uniformity for potential imaging applications. Our work demonstrates that the Te/graphene heterojunction detector will be one of the competitive candidates for next-generation uncooled blackbody-sensitive infrared photodetectors.",

keywords = "blackbody-sensitive, linear array devices, room-temperature infrared photodetector, tellurium, van der Waals heterojunction",

author = "Meng Peng and Yiye Yu and Zhen Wang and Xiao Fu and Yue Gu and Yang Wang and Kun Zhang and Zhenhan Zhang and Min Huang and Zhuangzhuang Cui and Fang Zhong and Peisong Wu and Jiafu Ye and Tengfei Xu and Qing Li and Peng Wang and Fangyu Yue and Feng Wu and Jiangnan Dai and Changqing Chen and Weida Hu",

note = "Publisher Copyright: {\textcopyright} 2022 American Chemical Society.",

year = "2022",

month = may,

day = "18",

doi = "10.1021/acsphotonics.2c00246",

language = "英语",

volume = "9",

pages = "1775--1782",

journal = "ACS Photonics",

issn = "2330-4022",

publisher = "American Chemical Society",

number = "5",

}

Peng, M, Yu, Y, Wang, Z, Fu, X, Gu, Y, Wang, Y, Zhang, K, Zhang, Z, Huang, M, Cui, Z, Zhong, F, Wu, P, Ye, J, Xu, T, Li, Q, Wang, P, Yue, F, Wu, F, Dai, J, Chen, C & Hu, W 2022, 'Room-Temperature Blackbody-Sensitive and Fast Infrared Photodetectors Based on 2D Tellurium/Graphene Van der Waals Heterojunction', ACS Photonics, 卷 9, 号码 5, 页码 1775-1782. https://doi.org/10.1021/acsphotonics.2c00246

TY - JOUR

T1 - Room-Temperature Blackbody-Sensitive and Fast Infrared Photodetectors Based on 2D Tellurium/Graphene Van der Waals Heterojunction

AU - Peng, Meng

AU - Yu, Yiye

AU - Wang, Zhen

AU - Fu, Xiao

AU - Gu, Yue

AU - Wang, Yang

AU - Zhang, Kun

AU - Zhang, Zhenhan

AU - Huang, Min

AU - Cui, Zhuangzhuang

AU - Zhong, Fang

AU - Wu, Peisong

AU - Ye, Jiafu

AU - Xu, Tengfei

AU - Li, Qing

AU - Wang, Peng

AU - Yue, Fangyu

AU - Wu, Feng

AU - Dai, Jiangnan

AU - Chen, Changqing

AU - Hu, Weida

PY - 2022/5/18

Y1 - 2022/5/18

N2 - Emerging low-dimensional materials exhibit the potential in realizing next-generation room-temperature blackbody-sensitive infrared detectors. As a narrow band gap semiconductor, low-dimensional tellurium (Te) has been a focus of infrared detector research attention because of its high hole mobility, large absorptivity, and environmental stability. However, it is still a challenge to fabricate blackbody-sensitive Te-based infrared detectors with a low dark current and fast speed. In this work, a heterojunction device based on Te and graphene is constructed, achieving high detectivity and a fast response time from visible to mid-infrared. Specifically under 2 μm laser irradiation, the heterojunction photodetector exhibits a detectivity of 1.04 × 109 cm Hz1/2 W−1, a fast response time of 28 μs, and good ambient stability. Moreover, the photodetector demonstrates a room-temperature blackbody sensitivity with the peak detectivity of up to 3.69 × 108 cm Hz1/2 W−1 under zero bias. Linear array devices are further explored and show good performance uniformity for potential imaging applications. Our work demonstrates that the Te/graphene heterojunction detector will be one of the competitive candidates for next-generation uncooled blackbody-sensitive infrared photodetectors.

AB - Emerging low-dimensional materials exhibit the potential in realizing next-generation room-temperature blackbody-sensitive infrared detectors. As a narrow band gap semiconductor, low-dimensional tellurium (Te) has been a focus of infrared detector research attention because of its high hole mobility, large absorptivity, and environmental stability. However, it is still a challenge to fabricate blackbody-sensitive Te-based infrared detectors with a low dark current and fast speed. In this work, a heterojunction device based on Te and graphene is constructed, achieving high detectivity and a fast response time from visible to mid-infrared. Specifically under 2 μm laser irradiation, the heterojunction photodetector exhibits a detectivity of 1.04 × 109 cm Hz1/2 W−1, a fast response time of 28 μs, and good ambient stability. Moreover, the photodetector demonstrates a room-temperature blackbody sensitivity with the peak detectivity of up to 3.69 × 108 cm Hz1/2 W−1 under zero bias. Linear array devices are further explored and show good performance uniformity for potential imaging applications. Our work demonstrates that the Te/graphene heterojunction detector will be one of the competitive candidates for next-generation uncooled blackbody-sensitive infrared photodetectors.

KW - blackbody-sensitive

KW - linear array devices

KW - room-temperature infrared photodetector

KW - tellurium

KW - van der Waals heterojunction

UR - https://www.scopus.com/pages/publications/85130799764

U2 - 10.1021/acsphotonics.2c00246

DO - 10.1021/acsphotonics.2c00246

M3 - 文章

AN - SCOPUS:85130799764

SN - 2330-4022

VL - 9

SP - 1775

EP - 1782

JO - ACS Photonics

JF - ACS Photonics

IS - 5

ER -

Room-Temperature Blackbody-Sensitive and Fast Infrared Photodetectors Based on 2D Tellurium/Graphene Van der Waals Heterojunction

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