Spectrally Selective Hole Extraction Structure Enables a Self-Powered Perovskite Solar-Blind Photodetector with Record Responsivity and Detectivity

Hong Yi Hou; Shuo Tian; Jing De Chen; Hong Hui Ling; Hao Ren; Ye Fan Zhang; Heng Ru Ge; Wei Shuo Chen; Yan Qing Li; Hongying Mao; Hisao Ishii; Jian Xin Tang

doi:10.1002/adom.202301964

Spectrally Selective Hole Extraction Structure Enables a Self-Powered Perovskite Solar-Blind Photodetector with Record Responsivity and Detectivity

Hong Yi Hou, Shuo Tian, Jing De Chen, Hong Hui Ling, Hao Ren, Ye Fan Zhang, Heng Ru Ge, Wei Shuo Chen, Yan Qing Li, Hongying Mao, Hisao Ishii, Jian Xin Tang

School of Physics and Electronic Science

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

7 Scopus citations

Abstract

Photodiode-type solar-blind photodetectors (SBPDs) with the self-powered feature hold great promise for applications in unattended secure communication, flame detection, and missile warning. However, the responsivity of SBPDs is usually limited due to the severe solar-blind (SB) light extinction in substrates and charge transport layers. Herein, a spectrally selective hole extraction structure (SHE) is proposed for high-efficiency perovskite SBPDs. The SHE consisting of a tandem Fabry–Perot cavity and energy-level-matched hole transport layer endows the device with narrowband absorption in the SB region and optimized charge extraction capability from the CsPbI₂Br perovskite. The optimized SHE exhibits a peak transmittance of 27% at 255 nm and a half maximum at full width of 28 nm. Under SB light illumination, the champion device achieves a responsivity of 56.20 mA W⁻¹ and a detectivity (D^*) of 2.86 × 10¹³ Jones, which are the record values among the reported results. The approach demonstrated here paves the way for the optical and electrical design of perovskite photodetectors with spectrally selective detection.

Original language	English
Article number	2301964
Journal	Advanced Optical Materials
Volume	12
Issue number	7
DOIs	https://doi.org/10.1002/adom.202301964
State	Published - 5 Mar 2024

Keywords

energy level alignment
hole transport layer
optical manipulation
self-powered perovskite photodetectors
solar-blind photodetectors

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10.1002/adom.202301964

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Hou, H. Y., Tian, S., Chen, J. D., Ling, H. H., Ren, H., Zhang, Y. F., Ge, H. R., Chen, W. S., Li, Y. Q., Mao, H., Ishii, H., & Tang, J. X. (2024). Spectrally Selective Hole Extraction Structure Enables a Self-Powered Perovskite Solar-Blind Photodetector with Record Responsivity and Detectivity. Advanced Optical Materials, 12(7), Article 2301964. https://doi.org/10.1002/adom.202301964

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title = "Spectrally Selective Hole Extraction Structure Enables a Self-Powered Perovskite Solar-Blind Photodetector with Record Responsivity and Detectivity",

abstract = "Photodiode-type solar-blind photodetectors (SBPDs) with the self-powered feature hold great promise for applications in unattended secure communication, flame detection, and missile warning. However, the responsivity of SBPDs is usually limited due to the severe solar-blind (SB) light extinction in substrates and charge transport layers. Herein, a spectrally selective hole extraction structure (SHE) is proposed for high-efficiency perovskite SBPDs. The SHE consisting of a tandem Fabry–Perot cavity and energy-level-matched hole transport layer endows the device with narrowband absorption in the SB region and optimized charge extraction capability from the CsPbI2Br perovskite. The optimized SHE exhibits a peak transmittance of 27\% at 255 nm and a half maximum at full width of 28 nm. Under SB light illumination, the champion device achieves a responsivity of 56.20 mA W−1 and a detectivity (D*) of 2.86 × 1013 Jones, which are the record values among the reported results. The approach demonstrated here paves the way for the optical and electrical design of perovskite photodetectors with spectrally selective detection.",

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doi = "10.1002/adom.202301964",

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AU - Hou, Hong Yi

AU - Tian, Shuo

AU - Chen, Jing De

AU - Ling, Hong Hui

AU - Ren, Hao

AU - Zhang, Ye Fan

AU - Ge, Heng Ru

AU - Chen, Wei Shuo

AU - Li, Yan Qing

AU - Mao, Hongying

AU - Ishii, Hisao

AU - Tang, Jian Xin

PY - 2024/3/5

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N2 - Photodiode-type solar-blind photodetectors (SBPDs) with the self-powered feature hold great promise for applications in unattended secure communication, flame detection, and missile warning. However, the responsivity of SBPDs is usually limited due to the severe solar-blind (SB) light extinction in substrates and charge transport layers. Herein, a spectrally selective hole extraction structure (SHE) is proposed for high-efficiency perovskite SBPDs. The SHE consisting of a tandem Fabry–Perot cavity and energy-level-matched hole transport layer endows the device with narrowband absorption in the SB region and optimized charge extraction capability from the CsPbI2Br perovskite. The optimized SHE exhibits a peak transmittance of 27% at 255 nm and a half maximum at full width of 28 nm. Under SB light illumination, the champion device achieves a responsivity of 56.20 mA W−1 and a detectivity (D*) of 2.86 × 1013 Jones, which are the record values among the reported results. The approach demonstrated here paves the way for the optical and electrical design of perovskite photodetectors with spectrally selective detection.

AB - Photodiode-type solar-blind photodetectors (SBPDs) with the self-powered feature hold great promise for applications in unattended secure communication, flame detection, and missile warning. However, the responsivity of SBPDs is usually limited due to the severe solar-blind (SB) light extinction in substrates and charge transport layers. Herein, a spectrally selective hole extraction structure (SHE) is proposed for high-efficiency perovskite SBPDs. The SHE consisting of a tandem Fabry–Perot cavity and energy-level-matched hole transport layer endows the device with narrowband absorption in the SB region and optimized charge extraction capability from the CsPbI2Br perovskite. The optimized SHE exhibits a peak transmittance of 27% at 255 nm and a half maximum at full width of 28 nm. Under SB light illumination, the champion device achieves a responsivity of 56.20 mA W−1 and a detectivity (D*) of 2.86 × 1013 Jones, which are the record values among the reported results. The approach demonstrated here paves the way for the optical and electrical design of perovskite photodetectors with spectrally selective detection.

KW - energy level alignment

KW - hole transport layer

KW - optical manipulation

KW - self-powered perovskite photodetectors

KW - solar-blind photodetectors

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DO - 10.1002/adom.202301964

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SN - 2195-1071

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Spectrally Selective Hole Extraction Structure Enables a Self-Powered Perovskite Solar-Blind Photodetector with Record Responsivity and Detectivity

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Keywords

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