Highly efficient photoelectric effect in halide perovskites for regenerative electron sources

Fangze Liu; Siraj Sidhik; Mark A. Hoffbauer; Sina Lewis; Amanda J. Neukirch; Vitaly Pavlenko; Hsinhan Tsai; Wanyi Nie; Jacky Even; Sergei Tretiak; Pulickel M. Ajayan; Mercouri G. Kanatzidis; Jared J. Crochet; Nathan A. Moody; Jean Christophe Blancon; Aditya D. Mohite

doi:10.1038/s41467-021-20954-6

Highly efficient photoelectric effect in halide perovskites for regenerative electron sources

Fangze Liu, Siraj Sidhik, Mark A. Hoffbauer, Sina Lewis, Amanda J. Neukirch, Vitaly Pavlenko, Hsinhan Tsai, Wanyi Nie, Jacky Even, Sergei Tretiak, Pulickel M. Ajayan, Mercouri G. Kanatzidis, Jared J. Crochet, Nathan A. Moody, Jean Christophe Blancon^*, Aditya D. Mohite^*

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

16 引用（Scopus）

摘要

Electron sources are a critical component in a wide range of applications such as electron-beam accelerator facilities, photomultipliers, and image intensifiers for night vision. We report efficient, regenerative and low-cost electron sources based on solution-processed halide perovskites thin films when they are excited with light with energy equal to or above their bandgap. We measure a quantum efficiency up to 2.2% and a lifetime of more than 25 h. Importantly, even after degradation, the electron emission can be completely regenerated to its maximum efficiency by deposition of a monolayer of Cs. The electron emission from halide perovskites can be tuned over the visible and ultraviolet spectrum, and operates at vacuum levels with pressures at least two-orders higher than in state-of-the-art semiconductor electron sources.

源语言	英语
文章编号	673
期刊	Nature Communications
卷	12
期	1
DOI	https://doi.org/10.1038/s41467-021-20954-6
出版状态	已出版 - 1 12月 2021
已对外发布	是

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Liu, F., Sidhik, S., Hoffbauer, M. A., Lewis, S., Neukirch, A. J., Pavlenko, V., Tsai, H., Nie, W., Even, J., Tretiak, S., Ajayan, P. M., Kanatzidis, M. G., Crochet, J. J., Moody, N. A., Blancon, J. C., & Mohite, A. D. (2021). Highly efficient photoelectric effect in halide perovskites for regenerative electron sources. Nature Communications, 12(1), 文章 673. https://doi.org/10.1038/s41467-021-20954-6

@article{716f12d3364e46069fa24dd6869c65aa,

title = "Highly efficient photoelectric effect in halide perovskites for regenerative electron sources",

abstract = "Electron sources are a critical component in a wide range of applications such as electron-beam accelerator facilities, photomultipliers, and image intensifiers for night vision. We report efficient, regenerative and low-cost electron sources based on solution-processed halide perovskites thin films when they are excited with light with energy equal to or above their bandgap. We measure a quantum efficiency up to 2.2% and a lifetime of more than 25 h. Importantly, even after degradation, the electron emission can be completely regenerated to its maximum efficiency by deposition of a monolayer of Cs. The electron emission from halide perovskites can be tuned over the visible and ultraviolet spectrum, and operates at vacuum levels with pressures at least two-orders higher than in state-of-the-art semiconductor electron sources.",

author = "Fangze Liu and Siraj Sidhik and Hoffbauer, {Mark A.} and Sina Lewis and Neukirch, {Amanda J.} and Vitaly Pavlenko and Hsinhan Tsai and Wanyi Nie and Jacky Even and Sergei Tretiak and Ajayan, {Pulickel M.} and Kanatzidis, {Mercouri G.} and Crochet, {Jared J.} and Moody, {Nathan A.} and Blancon, {Jean Christophe} and Mohite, {Aditya D.}",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

day = "1",

doi = "10.1038/s41467-021-20954-6",

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Liu, F, Sidhik, S, Hoffbauer, MA, Lewis, S, Neukirch, AJ, Pavlenko, V, Tsai, H, Nie, W, Even, J, Tretiak, S, Ajayan, PM, Kanatzidis, MG, Crochet, JJ, Moody, NA, Blancon, JC & Mohite, AD 2021, 'Highly efficient photoelectric effect in halide perovskites for regenerative electron sources', Nature Communications, 卷 12, 号码 1, 673. https://doi.org/10.1038/s41467-021-20954-6

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T1 - Highly efficient photoelectric effect in halide perovskites for regenerative electron sources

AU - Liu, Fangze

AU - Sidhik, Siraj

AU - Hoffbauer, Mark A.

AU - Lewis, Sina

AU - Neukirch, Amanda J.

AU - Pavlenko, Vitaly

AU - Tsai, Hsinhan

AU - Nie, Wanyi

AU - Even, Jacky

AU - Tretiak, Sergei

AU - Ajayan, Pulickel M.

AU - Kanatzidis, Mercouri G.

AU - Crochet, Jared J.

AU - Moody, Nathan A.

AU - Blancon, Jean Christophe

AU - Mohite, Aditya D.

PY - 2021/12/1

Y1 - 2021/12/1

N2 - Electron sources are a critical component in a wide range of applications such as electron-beam accelerator facilities, photomultipliers, and image intensifiers for night vision. We report efficient, regenerative and low-cost electron sources based on solution-processed halide perovskites thin films when they are excited with light with energy equal to or above their bandgap. We measure a quantum efficiency up to 2.2% and a lifetime of more than 25 h. Importantly, even after degradation, the electron emission can be completely regenerated to its maximum efficiency by deposition of a monolayer of Cs. The electron emission from halide perovskites can be tuned over the visible and ultraviolet spectrum, and operates at vacuum levels with pressures at least two-orders higher than in state-of-the-art semiconductor electron sources.

AB - Electron sources are a critical component in a wide range of applications such as electron-beam accelerator facilities, photomultipliers, and image intensifiers for night vision. We report efficient, regenerative and low-cost electron sources based on solution-processed halide perovskites thin films when they are excited with light with energy equal to or above their bandgap. We measure a quantum efficiency up to 2.2% and a lifetime of more than 25 h. Importantly, even after degradation, the electron emission can be completely regenerated to its maximum efficiency by deposition of a monolayer of Cs. The electron emission from halide perovskites can be tuned over the visible and ultraviolet spectrum, and operates at vacuum levels with pressures at least two-orders higher than in state-of-the-art semiconductor electron sources.

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Highly efficient photoelectric effect in halide perovskites for regenerative electron sources

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