Sensitive and Fast X-Ray Scintillation with Perovskite-Inspired Cerium Halide Nanocrystals

Huifang Yang; Chaohui Zhao; Yanze Wang; Xinqi Xu; Gaoyu Chen; Denglin Zhao; Zengguang Zhang; Min Rao; Juntao Lu; Yatao Zou; Zhongbin Wu; Wenbo Hu; Ziwei Li; Meng Su; Qiushui Chen; Xiaowang Liu; Nicolas H. Voelcker; Bo Peng; Weidong Xu

doi:10.1002/adfm.202422959

Sensitive and Fast X-Ray Scintillation with Perovskite-Inspired Cerium Halide Nanocrystals

Huifang Yang
, Chaohui Zhao
, Yanze Wang
, Xinqi Xu
, Gaoyu Chen
, Denglin Zhao
, Zengguang Zhang
, Min Rao
, Juntao Lu
, Yatao Zou
, Zhongbin Wu
, Wenbo Hu
, Ziwei Li
, Meng Su
, Qiushui Chen
, Xiaowang Liu
, Nicolas H. Voelcker
, Bo Peng
, Weidong Xu

柔性电子研究院

Northwestern Polytechnical University Xian
Fuzhou University
Hunan University
CAS - Institute of Chemistry
Monash University
Henan University

科研成果: 期刊稿件 › 文章 › 同行评审

9 引用（Scopus）

摘要

Real-time, high-precision X-ray imaging is of critical importance in a wide range of applications, from medical diagnostics to security screening. While lanthanide luminescent materials are among the most commonly used scintillators, achieving a combination of large-area scalability, rapid response, and optimal performance remains challenging. Herein, a perovskite-inspired cerium halide nanocrystal scintillator is presented with a remarkable photoluminescence quantum yield approaching unity and a fast radiative recombination rate of ≈29 ns. By leveraging these promising characteristics, large-area X-ray imaging is demonstrated with a spatial resolution of 12.21 lp mm⁻¹ and an ultra-low detection limit of 11.2 nGy s⁻¹, alongside applications in dynamic imaging. Based on these paternal nanocrystals, the versatile spectral tunability through halide alloying and cation doping is further explored, offering a promising platform for future chemical and structural design toward advanced scintillations and other down-conversion applications.

源语言	英语
文章编号	2422959
期刊	Advanced Functional Materials
卷	35
期	27
DOI	https://doi.org/10.1002/adfm.202422959
出版状态	已出版 - 3 7月 2025

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10.1002/adfm.202422959

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Yang, H., Zhao, C., Wang, Y., Xu, X., Chen, G., Zhao, D., Zhang, Z., Rao, M., Lu, J., Zou, Y., Wu, Z., Hu, W., Li, Z., Su, M., Chen, Q., Liu, X., Voelcker, N. H., Peng, B., & Xu, W. (2025). Sensitive and Fast X-Ray Scintillation with Perovskite-Inspired Cerium Halide Nanocrystals. Advanced Functional Materials, 35(27), 文章 2422959. https://doi.org/10.1002/adfm.202422959

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title = "Sensitive and Fast X-Ray Scintillation with Perovskite-Inspired Cerium Halide Nanocrystals",

abstract = "Real-time, high-precision X-ray imaging is of critical importance in a wide range of applications, from medical diagnostics to security screening. While lanthanide luminescent materials are among the most commonly used scintillators, achieving a combination of large-area scalability, rapid response, and optimal performance remains challenging. Herein, a perovskite-inspired cerium halide nanocrystal scintillator is presented with a remarkable photoluminescence quantum yield approaching unity and a fast radiative recombination rate of ≈29 ns. By leveraging these promising characteristics, large-area X-ray imaging is demonstrated with a spatial resolution of 12.21 lp mm−1 and an ultra-low detection limit of 11.2 nGy s−1, alongside applications in dynamic imaging. Based on these paternal nanocrystals, the versatile spectral tunability through halide alloying and cation doping is further explored, offering a promising platform for future chemical and structural design toward advanced scintillations and other down-conversion applications.",

keywords = "X-ray dynamic imaging, blue LED, cerium based colloidal nanocrystals, photoluminescence reversibility",

author = "Huifang Yang and Chaohui Zhao and Yanze Wang and Xinqi Xu and Gaoyu Chen and Denglin Zhao and Zengguang Zhang and Min Rao and Juntao Lu and Yatao Zou and Zhongbin Wu and Wenbo Hu and Ziwei Li and Meng Su and Qiushui Chen and Xiaowang Liu and Voelcker, \{Nicolas H.\} and Bo Peng and Weidong Xu",

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year = "2025",

month = jul,

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doi = "10.1002/adfm.202422959",

language = "英语",

volume = "35",

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T1 - Sensitive and Fast X-Ray Scintillation with Perovskite-Inspired Cerium Halide Nanocrystals

AU - Yang, Huifang

AU - Zhao, Chaohui

AU - Wang, Yanze

AU - Xu, Xinqi

AU - Chen, Gaoyu

AU - Zhao, Denglin

AU - Zhang, Zengguang

AU - Rao, Min

AU - Lu, Juntao

AU - Zou, Yatao

AU - Wu, Zhongbin

AU - Hu, Wenbo

AU - Li, Ziwei

AU - Su, Meng

AU - Chen, Qiushui

AU - Liu, Xiaowang

AU - Voelcker, Nicolas H.

AU - Peng, Bo

AU - Xu, Weidong

PY - 2025/7/3

Y1 - 2025/7/3

N2 - Real-time, high-precision X-ray imaging is of critical importance in a wide range of applications, from medical diagnostics to security screening. While lanthanide luminescent materials are among the most commonly used scintillators, achieving a combination of large-area scalability, rapid response, and optimal performance remains challenging. Herein, a perovskite-inspired cerium halide nanocrystal scintillator is presented with a remarkable photoluminescence quantum yield approaching unity and a fast radiative recombination rate of ≈29 ns. By leveraging these promising characteristics, large-area X-ray imaging is demonstrated with a spatial resolution of 12.21 lp mm−1 and an ultra-low detection limit of 11.2 nGy s−1, alongside applications in dynamic imaging. Based on these paternal nanocrystals, the versatile spectral tunability through halide alloying and cation doping is further explored, offering a promising platform for future chemical and structural design toward advanced scintillations and other down-conversion applications.

AB - Real-time, high-precision X-ray imaging is of critical importance in a wide range of applications, from medical diagnostics to security screening. While lanthanide luminescent materials are among the most commonly used scintillators, achieving a combination of large-area scalability, rapid response, and optimal performance remains challenging. Herein, a perovskite-inspired cerium halide nanocrystal scintillator is presented with a remarkable photoluminescence quantum yield approaching unity and a fast radiative recombination rate of ≈29 ns. By leveraging these promising characteristics, large-area X-ray imaging is demonstrated with a spatial resolution of 12.21 lp mm−1 and an ultra-low detection limit of 11.2 nGy s−1, alongside applications in dynamic imaging. Based on these paternal nanocrystals, the versatile spectral tunability through halide alloying and cation doping is further explored, offering a promising platform for future chemical and structural design toward advanced scintillations and other down-conversion applications.

KW - X-ray dynamic imaging

KW - blue LED

KW - cerium based colloidal nanocrystals

KW - photoluminescence reversibility

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U2 - 10.1002/adfm.202422959

DO - 10.1002/adfm.202422959

M3 - 文章

AN - SCOPUS:85219689658

SN - 1616-301X

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JO - Advanced Functional Materials

JF - Advanced Functional Materials

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Sensitive and Fast X-Ray Scintillation with Perovskite-Inspired Cerium Halide Nanocrystals

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