Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors
2D materials possess superior optoelectronic properties, such as ultrahigh mobility and broadband photoresponse, making them one of the most vital platforms for diversified photodetectors. However, atomic thickness 2D materials usually suffer from intrinsic low absorption. To promote the photodetect...
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sg-ntu-dr.10356-1616612023-02-28T20:08:20Z Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors Han, Jiayue Wang, Fakun Han, Song Deng, Wenjie Du, Xiaoyang Yu, He Gou, Jun Wang, Qi Jie Wang, Jun School of Electrical and Electronic Engineering School of Physical and Mathematical Sciences Centre for OptoElectronics and Biophotonics The Photonics Institute Engineering::Electrical and electronic engineering 2D Materials Charge Transfer 2D materials possess superior optoelectronic properties, such as ultrahigh mobility and broadband photoresponse, making them one of the most vital platforms for diversified photodetectors. However, atomic thickness 2D materials usually suffer from intrinsic low absorption. To promote the photodetector performance, a feasible method is to integrate the 2D materials with low-cost, flexible, and tunable organics that form a charge transfer (CT) heterojunction. As results, in-depth multifunctional CT 2D-inorganic/organic detector exhibits extended functions such as low-power consumption, in-memory detection, and optical-bio synapse to meet the demand of contemporary photonic cell. Particularly, the progresses in wafer-scale monocrystal of both 2D and organic materials render vast potential applications with operation frequencies ranging from ultraviolet to terahertz. Here, the recent advances of 2D-inorganic/organic CT photodetectors are comprehensively reviewed by several classifications. Future developments and applications in optical biology, synapsis, and machine vision are also highlighted. Ministry of Education (MOE) National Research Foundation (NRF) Submitted/Accepted version The authors acknowledge financial support from National Science Funds for (Nos. 61922022, 62175026, 62171094 ̧ and 62104026), the Singapore Ministry of Education Academic Research Fund No. MOE-T2EP50120-0009 (S), by the National Research Foundation Singapore programme Nos. NRF-CRP18-2017-02 and NRF-CRP22-2019-0007. Also, thanks for China Scholarship Council. 2022-09-13T07:39:14Z 2022-09-13T07:39:14Z 2022 Journal Article Han, J., Wang, F., Han, S., Deng, W., Du, X., Yu, H., Gou, J., Wang, Q. J. & Wang, J. (2022). Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors. Advanced Functional Materials, 32(34), 2205150-. https://dx.doi.org/10.1002/adfm.202205150 1616-301X https://hdl.handle.net/10356/161661 10.1002/adfm.202205150 2-s2.0-85132415958 34 32 2205150 en MOE-T2EP50120-0009 (S) NRF-CRP18-2017-02 NRF-CRP22-2019-0007 Advanced Functional Materials This is the peer reviewed version of the following article: Han, J., Wang, F., Han, S., Deng, W., Du, X., Yu, H., Gou, J., Wang, Q. J. & Wang, J. (2022). Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors. Advanced Functional Materials, 32(34), 2205150-, which has been published in final form at https://doi.org/10.1002/adfm.202205150. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Use of Self-Archived Versions. application/pdf |
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Engineering::Electrical and electronic engineering 2D Materials Charge Transfer Han, Jiayue Wang, Fakun Han, Song Deng, Wenjie Du, Xiaoyang Yu, He Gou, Jun Wang, Qi Jie Wang, Jun Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors |
| description |
2D materials possess superior optoelectronic properties, such as ultrahigh mobility and broadband photoresponse, making them one of the most vital platforms for diversified photodetectors. However, atomic thickness 2D materials usually suffer from intrinsic low absorption. To promote the photodetector performance, a feasible method is to integrate the 2D materials with low-cost, flexible, and tunable organics that form a charge transfer (CT) heterojunction. As results, in-depth multifunctional CT 2D-inorganic/organic detector exhibits extended functions such as low-power consumption, in-memory detection, and optical-bio synapse to meet the demand of contemporary photonic cell. Particularly, the progresses in wafer-scale monocrystal of both 2D and organic materials render vast potential applications with operation frequencies ranging from ultraviolet to terahertz. Here, the recent advances of 2D-inorganic/organic CT photodetectors are comprehensively reviewed by several classifications. Future developments and applications in optical biology, synapsis, and machine vision are also highlighted. |
| author2 |
School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Han, Jiayue Wang, Fakun Han, Song Deng, Wenjie Du, Xiaoyang Yu, He Gou, Jun Wang, Qi Jie Wang, Jun |
| format |
Article |
| author |
Han, Jiayue Wang, Fakun Han, Song Deng, Wenjie Du, Xiaoyang Yu, He Gou, Jun Wang, Qi Jie Wang, Jun |
| author_sort |
Han, Jiayue |
| title |
Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors |
| title_short |
Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors |
| title_full |
Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors |
| title_fullStr |
Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors |
| title_full_unstemmed |
Recent progress in 2D inorganic/organic charge transfer heterojunction photodetectors |
| title_sort |
recent progress in 2d inorganic/organic charge transfer heterojunction photodetectors |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/161661 |
| _version_ |
1759858353008279552 |