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Heterovalent Co‐Doped LiLuF<sub>4</sub> Composite Flexible Films as Persistent Luminescence Scintillator for X‐Ray High‐Resolution Extension Imaging

Hao Lu, Xieming Xu, Yuxia Li, Guiqing Feng, Jinhai Yang, Xixi Huang, Qi Luo, Shuai‐Hua Wang, Shaofan Wu

2024Advanced Optical Materials24 citationsDOI

Abstract

Abstract Scintillators with high light yield, spatial resolution, and detection sensitivity are desirable for X‐ray imaging. Howerer, it remains challenging to improve the light yield and radiation detection capability of alkali metal rare‐earth fluoride (ALnF 4 ). Herein, a type of Cu 2+ ion heterovalent co‐doped LiLuF 4 :Tb,Cu microcrystalline scintillation material with high light yield, persistent, and thermostimulated luminescence is obtained by defect engineering. The heterovalent codoping strategy not only increases the radioluminescence (RL) intensity, but also introduces more carrier traps in the material to enhance the long‐afterglow and thermoluminescence intensity of LiLuF 4 :Tb microcrystals. After doping of 3 mol% Cu 2+ ions, the RL efficiency is increased by 88.61%, and the X‐ray detection limit of LiLuF 4 :Tb,Cu reaches 2.7928 nGy·s ‒1 . This detectivity is considerably lower than the medical imaging requirements (5.5 µGy·s ‒1 ). Furthermore, a large‐area flexible scintillation film of dimensions 30 × 30 cm 2 is prepared to achieve high spatial resolution X‐ray imaging of 22 LP mm −1 @MTF(modulation transfer function) = 0.2. Besides, this flexible film enables X‐ray imaging of curved objects and stores optical information for &gt;48 h. This work provides a paradigm for improving the RL intensity and X‐ray detection sensitivity of alkali rare‐earth fluorides by crystal defect engineering, and enriches X‐ray high resolution extended imaging applications.

Topics & Concepts

RadioluminescenceMaterials scienceScintillatorLuminescenceThermoluminescenceScintillationMicrocrystallineDopingOptoelectronicsOpticsDetectorPhysicsCrystallographyChemistryLuminescence Properties of Advanced MaterialsRadiation Detection and Scintillator TechnologiesAtomic and Subatomic Physics Research
Heterovalent Co‐Doped LiLuF<sub>4</sub> Composite Flexible Films as Persistent Luminescence Scintillator for X‐Ray High‐Resolution Extension Imaging | Litcius