Efficient X-ray luminescence imaging with ultrastable and eco-friendly copper(I)-iodide cluster microcubes

Yanze Wang; Wenjing Zhao; Yuanyuan Guo; Wenbo Hu; Chenxi Peng; Lei Li; Yuan Wei; Zhongbin Wu; Weidong Xu; Xiyan Li; Yung Doug Suh; Xiaowang Liu; Wei Huang

doi:10.1038/s41377-023-01208-0

Efficient X-ray luminescence imaging with ultrastable and eco-friendly copper(I)-iodide cluster microcubes

Yanze Wang, Wenjing Zhao, Yuanyuan Guo, Wenbo Hu, Chenxi Peng, Lei Li, Yuan Wei, Zhongbin Wu, Weidong Xu, Xiyan Li, Yung Doug Suh, Xiaowang Liu, Wei Huang

柔性电子研究院

科研成果: 期刊稿件 › 文章 › 同行评审

33 引用（Scopus）

摘要

The advancement of contemporary X-ray imaging heavily depends on discovering scintillators that possess high sensitivity, robust stability, low toxicity, and a uniform size distribution. Despite significant progress in this field, the discovery of a material that satisfies all of these criteria remains a challenge. In this study, we report the synthesis of monodisperse copper(I)-iodide cluster microcubes as a new class of X-ray scintillators. The as-prepared microcubes exhibit remarkable sensitivity to X-rays and exceptional stability under moisture and X-ray exposure. The uniform size distribution and high scintillation performance of the copper(I)-iodide cluster microcubes make them suitable for the fabrication of large-area, flexible scintillating films for X-ray imaging applications in both static and dynamic settings.

源语言	英语
文章编号	155
期刊	Light: Science and Applications
卷	12
期	1
DOI	https://doi.org/10.1038/s41377-023-01208-0
出版状态	已出版 - 12月 2023

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abstract = "The advancement of contemporary X-ray imaging heavily depends on discovering scintillators that possess high sensitivity, robust stability, low toxicity, and a uniform size distribution. Despite significant progress in this field, the discovery of a material that satisfies all of these criteria remains a challenge. In this study, we report the synthesis of monodisperse copper(I)-iodide cluster microcubes as a new class of X-ray scintillators. The as-prepared microcubes exhibit remarkable sensitivity to X-rays and exceptional stability under moisture and X-ray exposure. The uniform size distribution and high scintillation performance of the copper(I)-iodide cluster microcubes make them suitable for the fabrication of large-area, flexible scintillating films for X-ray imaging applications in both static and dynamic settings.",

author = "Yanze Wang and Wenjing Zhao and Yuanyuan Guo and Wenbo Hu and Chenxi Peng and Lei Li and Yuan Wei and Zhongbin Wu and Weidong Xu and Xiyan Li and Suh, {Yung Doug} and Xiaowang Liu and Wei Huang",

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AU - Wang, Yanze

AU - Zhao, Wenjing

AU - Guo, Yuanyuan

AU - Hu, Wenbo

AU - Peng, Chenxi

AU - Li, Lei

AU - Wei, Yuan

AU - Wu, Zhongbin

AU - Xu, Weidong

AU - Li, Xiyan

AU - Suh, Yung Doug

AU - Liu, Xiaowang

AU - Huang, Wei

PY - 2023/12

Y1 - 2023/12

N2 - The advancement of contemporary X-ray imaging heavily depends on discovering scintillators that possess high sensitivity, robust stability, low toxicity, and a uniform size distribution. Despite significant progress in this field, the discovery of a material that satisfies all of these criteria remains a challenge. In this study, we report the synthesis of monodisperse copper(I)-iodide cluster microcubes as a new class of X-ray scintillators. The as-prepared microcubes exhibit remarkable sensitivity to X-rays and exceptional stability under moisture and X-ray exposure. The uniform size distribution and high scintillation performance of the copper(I)-iodide cluster microcubes make them suitable for the fabrication of large-area, flexible scintillating films for X-ray imaging applications in both static and dynamic settings.

AB - The advancement of contemporary X-ray imaging heavily depends on discovering scintillators that possess high sensitivity, robust stability, low toxicity, and a uniform size distribution. Despite significant progress in this field, the discovery of a material that satisfies all of these criteria remains a challenge. In this study, we report the synthesis of monodisperse copper(I)-iodide cluster microcubes as a new class of X-ray scintillators. The as-prepared microcubes exhibit remarkable sensitivity to X-rays and exceptional stability under moisture and X-ray exposure. The uniform size distribution and high scintillation performance of the copper(I)-iodide cluster microcubes make them suitable for the fabrication of large-area, flexible scintillating films for X-ray imaging applications in both static and dynamic settings.

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Efficient X-ray luminescence imaging with ultrastable and eco-friendly copper(I)-iodide cluster microcubes

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