Dual-Enhanced Photodetectors Combining Graphene Plasmonic Nanoresonators with Germanium-on-Insulator Optical Cavities

Lingyan Yu; Shan Zhang; Guanglin Zhang; Zhengyi He; Xiaoqiang Feng; Zhiduo Liu; Gang Wang; Weidong Tao; Li Zheng; Siwei Yang; Guqiao Ding

doi:10.1109/TED.2022.3168528

Dual-Enhanced Photodetectors Combining Graphene Plasmonic Nanoresonators with Germanium-on-Insulator Optical Cavities

Lingyan Yu, Shan Zhang, Guanglin Zhang, Zhengyi He, Xiaoqiang Feng, Zhiduo Liu, Gang Wang^*, Weidong Tao, Li Zheng, Siwei Yang, Guqiao Ding

^*此作品的通讯作者

物理学院

科研成果: 期刊稿件 › 文章 › 同行评审

3 引用（Scopus）

摘要

Two-dimensional graphene (2-D graphene) has limited application potential in optoelectronics because of its low light absorptivity and gapless property. This work presents photodetectors with increased light absorption efficiency, which couple 3-D graphene with the optical cavity structure of germanium-on-insulator (GeOI). Multiple reflections are generated at the 3-D graphene/GeOI heterojunction due to the unique plasmonic nanoresonator and optical cavity structures. The photodetectors exhibit excellent responsivity (R=0.9×104 mAW-1) and specific detectivity (D∗ = 3.96×1010cmHz1/2W-1) under 1550-nm illumination with fast response rates, excellent reproducibility, and long-Term stability. The technique paves the way for creating novel high-performance graphene-based photodetectors with hybrid architectures.

源语言	英语
页（从-至）	3246-3250
页数	5
期刊	IEEE Transactions on Electron Devices
卷	69
期	6
DOI	https://doi.org/10.1109/TED.2022.3168528
出版状态	已出版 - 1 6月 2022

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title = "Dual-Enhanced Photodetectors Combining Graphene Plasmonic Nanoresonators with Germanium-on-Insulator Optical Cavities",

abstract = "Two-dimensional graphene (2-D graphene) has limited application potential in optoelectronics because of its low light absorptivity and gapless property. This work presents photodetectors with increased light absorption efficiency, which couple 3-D graphene with the optical cavity structure of germanium-on-insulator (GeOI). Multiple reflections are generated at the 3-D graphene/GeOI heterojunction due to the unique plasmonic nanoresonator and optical cavity structures. The photodetectors exhibit excellent responsivity (R=0.9×104 mAW-1) and specific detectivity (D∗ = 3.96×1010cmHz1/2W-1) under 1550-nm illumination with fast response rates, excellent reproducibility, and long-Term stability. The technique paves the way for creating novel high-performance graphene-based photodetectors with hybrid architectures.",

keywords = "3-D-graphene, Germanium-on-insulator (GeOI), Optical cavity, Photodetectors, Plasmonic nanoresonators",

author = "Lingyan Yu and Shan Zhang and Guanglin Zhang and Zhengyi He and Xiaoqiang Feng and Zhiduo Liu and Gang Wang and Weidong Tao and Li Zheng and Siwei Yang and Guqiao Ding",

note = "Publisher Copyright: {\textcopyright} 1963-2012 IEEE.",

year = "2022",

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doi = "10.1109/TED.2022.3168528",

language = "English",

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T1 - Dual-Enhanced Photodetectors Combining Graphene Plasmonic Nanoresonators with Germanium-on-Insulator Optical Cavities

AU - Yu, Lingyan

AU - Zhang, Shan

AU - Zhang, Guanglin

AU - He, Zhengyi

AU - Feng, Xiaoqiang

AU - Liu, Zhiduo

AU - Wang, Gang

AU - Tao, Weidong

AU - Zheng, Li

AU - Yang, Siwei

AU - Ding, Guqiao

PY - 2022/6/1

Y1 - 2022/6/1

N2 - Two-dimensional graphene (2-D graphene) has limited application potential in optoelectronics because of its low light absorptivity and gapless property. This work presents photodetectors with increased light absorption efficiency, which couple 3-D graphene with the optical cavity structure of germanium-on-insulator (GeOI). Multiple reflections are generated at the 3-D graphene/GeOI heterojunction due to the unique plasmonic nanoresonator and optical cavity structures. The photodetectors exhibit excellent responsivity (R=0.9×104 mAW-1) and specific detectivity (D∗ = 3.96×1010cmHz1/2W-1) under 1550-nm illumination with fast response rates, excellent reproducibility, and long-Term stability. The technique paves the way for creating novel high-performance graphene-based photodetectors with hybrid architectures.

AB - Two-dimensional graphene (2-D graphene) has limited application potential in optoelectronics because of its low light absorptivity and gapless property. This work presents photodetectors with increased light absorption efficiency, which couple 3-D graphene with the optical cavity structure of germanium-on-insulator (GeOI). Multiple reflections are generated at the 3-D graphene/GeOI heterojunction due to the unique plasmonic nanoresonator and optical cavity structures. The photodetectors exhibit excellent responsivity (R=0.9×104 mAW-1) and specific detectivity (D∗ = 3.96×1010cmHz1/2W-1) under 1550-nm illumination with fast response rates, excellent reproducibility, and long-Term stability. The technique paves the way for creating novel high-performance graphene-based photodetectors with hybrid architectures.

KW - 3-D-graphene

KW - Germanium-on-insulator (GeOI)

KW - Optical cavity

KW - Photodetectors

KW - Plasmonic nanoresonators

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Dual-Enhanced Photodetectors Combining Graphene Plasmonic Nanoresonators with Germanium-on-Insulator Optical Cavities

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