A uranyl-based luminescent dosimeter for ultralow-dose tracking of UV and X-ray radiation

Herein, we report a novel uranyl-based organic-inorganic hybrid dosimeter, designated as U-OX-PIP . Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence quenching responses, which are characterized by a gradual suppression of the uranyl emission signature. The pronounced fluorescence quenchin...

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Published in	Chemical communications (Cambridge, England) Vol. 61; no. 51; pp. 9322 - 9325
Main Authors	Gu, Qinyan, Lei, Ji, Deng, Wenjie, Zhang, Heyao, Zhang, Zhi-Hui, Lu, Huangjie, Hu, Baowei, Xie, Jian
Format	Journal Article
Language	English
Published	England Royal Society of Chemistry 19.06.2025
Subjects	Dosimeters Fluorescence Quenching Radiation effects
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Abstract	Herein, we report a novel uranyl-based organic-inorganic hybrid dosimeter, designated as U-OX-PIP . Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence quenching responses, which are characterized by a gradual suppression of the uranyl emission signature. The pronounced fluorescence quenching behavior of U-OX-PIP enables its application as a highly sensitive radiation-responsive material. Furthermore, the identification of radiation-induced C-O&z.rad; radical species establishes U-OX-PIP as an ultrasensitive quenching-type dosimetric material. A uranyl-based dosimeter exhibits ultralow-dose sensitivity and visual fluorescence quenching, enabling offline detection of UV and X-ray radiation via a radical-mediated mechanism.
AbstractList	Herein, we report a novel uranyl-based organic-inorganic hybrid dosimeter, designated as U-OX-PIP. Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence quenching responses, which are characterized by a gradual suppression of the uranyl emission signature. The pronounced fluorescence quenching behavior of U-OX-PIP enables its application as a highly sensitive radiation-responsive material. Furthermore, the identification of radiation-induced C-O˙ radical species establishes U-OX-PIP as an ultrasensitive quenching-type dosimetric material.Herein, we report a novel uranyl-based organic-inorganic hybrid dosimeter, designated as U-OX-PIP. Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence quenching responses, which are characterized by a gradual suppression of the uranyl emission signature. The pronounced fluorescence quenching behavior of U-OX-PIP enables its application as a highly sensitive radiation-responsive material. Furthermore, the identification of radiation-induced C-O˙ radical species establishes U-OX-PIP as an ultrasensitive quenching-type dosimetric material. Herein, we report a novel uranyl-based organic-inorganic hybrid dosimeter, designated as U-OX-PIP . Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence quenching responses, which are characterized by a gradual suppression of the uranyl emission signature. The pronounced fluorescence quenching behavior of U-OX-PIP enables its application as a highly sensitive radiation-responsive material. Furthermore, the identification of radiation-induced C-O&z.rad; radical species establishes U-OX-PIP as an ultrasensitive quenching-type dosimetric material. A uranyl-based dosimeter exhibits ultralow-dose sensitivity and visual fluorescence quenching, enabling offline detection of UV and X-ray radiation via a radical-mediated mechanism. Herein, we report a novel uranyl-based organic–inorganic hybrid dosimeter, designated as U-OX-PIP. Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence quenching responses, which are characterized by a gradual suppression of the uranyl emission signature. The pronounced fluorescence quenching behavior of U-OX-PIP enables its application as a highly sensitive radiation-responsive material. Furthermore, the identification of radiation-induced C–O· radical species establishes U-OX-PIP as an ultrasensitive quenching-type dosimetric material. Herein, we report a novel uranyl-based organic–inorganic hybrid dosimeter, designated as U-OX-PIP. Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence quenching responses, which are characterized by a gradual suppression of the uranyl emission signature. The pronounced fluorescence quenching behavior of U-OX-PIP enables its application as a highly sensitive radiation-responsive material. Furthermore, the identification of radiation-induced C–O˙ radical species establishes U-OX-PIP as an ultrasensitive quenching-type dosimetric material.
Author	Deng, Wenjie Lu, Huangjie Gu, Qinyan Xie, Jian Hu, Baowei Zhang, Zhi-Hui Lei, Ji Zhang, Heyao
AuthorAffiliation	Jiangsu Key Laboratory of Advanced Catalytic Materials and Technology School of Life and Environmental Sciences Wang Zheng School of Microelectronics Changzhou University Shaoxing University
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Snippet	Herein, we report a novel uranyl-based organic-inorganic hybrid dosimeter, designated as U-OX-PIP . Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence... Herein, we report a novel uranyl-based organic–inorganic hybrid dosimeter, designated as U-OX-PIP. Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence... Herein, we report a novel uranyl-based organic-inorganic hybrid dosimeter, designated as U-OX-PIP. Remarkably, U-OX-PIP exhibits UV/X-ray-induced fluorescence...
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SubjectTerms	Dosimeters Fluorescence Quenching Radiation effects
Title	A uranyl-based luminescent dosimeter for ultralow-dose tracking of UV and X-ray radiation
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