Author
Listed:
- Yan Chen
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences
East China Normal University)
- Xudong Wang
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences)
- Le Huang
(State Key Laboratory of Superlattices and Microstructures, Institute of Semiconductors, Chinese Academy of Sciences)
- Xiaoting Wang
(State Key Laboratory of Superlattices and Microstructures, Institute of Semiconductors, Chinese Academy of Sciences)
- Wei Jiang
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences)
- Zhen Wang
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences)
- Peng Wang
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences)
- Binmin Wu
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences)
- Tie Lin
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences)
- Hong Shen
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences)
- Zhongming Wei
(State Key Laboratory of Superlattices and Microstructures, Institute of Semiconductors, Chinese Academy of Sciences)
- Weida Hu
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences
University of Chinese Academy of Sciences, Chinese Academy of Sciences)
- Xiangjian Meng
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences)
- Junhao Chu
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences
East China Normal University)
- Jianlu Wang
(State Key Laboratory of Infrared Physics, Shanghai Institute of Technical Physics, Chinese Academy of Sciences
University of Chinese Academy of Sciences, Chinese Academy of Sciences)
Abstract
Van der Waals integration with abundant two-dimensional materials provides a broad basis for assembling functional devices. In a specific van der Waals heterojunction, the band alignment engineering is crucial and feasible to realize high performance and multifunctionality. Here, we design a ferroelectric-tuned van der Waals heterojunction device structure by integrating a GeSe/MoS2 VHJ and poly (vinylidene fluoride-trifluoroethylene)-based ferroelectric polymer. An ultrahigh electric field derived from the ferroelectric polarization can effectively modulate the band alignment of the GeSe/MoS2 heterojunction. Band alignment transition of the heterojunction from type II to type I is demonstrated. The combination of anisotropic GeSe with MoS2 realizes a high-performance polarization-sensitive photodetector exhibiting low dark current of approximately 1.5 pA, quick response of 14 μs, and high detectivity of 4.7 × 1012 Jones. Dichroism ratios are also enhanced by ferroelectric polarization in a broad spectrum from visible to near-infrared. The ferroelectric-tuned GeSe/MoS2 van der Waals heterojunction has great potential for multifunctional detection applications in sophisticated light information sensing. More profoundly, the ferroelectric-tuned van der Waals heterojunction structure provides a valid band-engineering approach to creating versatile devices.
Suggested Citation
Yan Chen & Xudong Wang & Le Huang & Xiaoting Wang & Wei Jiang & Zhen Wang & Peng Wang & Binmin Wu & Tie Lin & Hong Shen & Zhongming Wei & Weida Hu & Xiangjian Meng & Junhao Chu & Jianlu Wang, 2021.
"Ferroelectric-tuned van der Waals heterojunction with band alignment evolution,"
Nature Communications, Nature, vol. 12(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24296-1
DOI: 10.1038/s41467-021-24296-1
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Citations
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Cited by:
- He-Shan Zhang & Xue-Mei Dong & Zi-Cheng Zhang & Ze-Pu Zhang & Chao-Yi Ban & Zhe Zhou & Cheng Song & Shi-Qi Yan & Qian Xin & Ju-Qing Liu & Yin-Xiang Li & Wei Huang, 2022.
"Co-assembled perylene/graphene oxide photosensitive heterobilayer for efficient neuromorphics,"
Nature Communications, Nature, vol. 13(1), pages 1-9, December.
- Shuaiqin Wu & Yan Chen & Xudong Wang & Hanxue Jiao & Qianru Zhao & Xinning Huang & Xiaochi Tai & Yong Zhou & Hao Chen & Xingjun Wang & Shenyang Huang & Hugen Yan & Tie Lin & Hong Shen & Weida Hu & Xia, 2022.
"Ultra-sensitive polarization-resolved black phosphorus homojunction photodetector defined by ferroelectric domains,"
Nature Communications, Nature, vol. 13(1), pages 1-9, December.
- Shukui Zhang & Hanxue Jiao & Yan Chen & Ruotong Yin & Xinning Huang & Qianru Zhao & Chong Tan & Shenyang Huang & Hugen Yan & Tie Lin & Hong Shen & Jun Ge & Xiangjian Meng & Weida Hu & Ning Dai & Xudon, 2024.
"Multi-dimensional optical information acquisition based on a misaligned unipolar barrier photodetector,"
Nature Communications, Nature, vol. 15(1), pages 1-9, December.
- Shuaiqin Wu & Jie Deng & Xudong Wang & Jing Zhou & Hanxue Jiao & Qianru Zhao & Tie Lin & Hong Shen & Xiangjian Meng & Yan Chen & Junhao Chu & Jianlu Wang, 2024.
"Polarization photodetectors with configurable polarity transition enabled by programmable ferroelectric-doping patterns,"
Nature Communications, Nature, vol. 15(1), pages 1-9, December.
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