Rare-Earth Co-doped BaLu<sub>2</sub>F<sub>8</sub> Nanocomposite Film with Enhanced Radioluminescence for High-Resolution X-ray Imaging
Zhongyuan Zhang, Hao Lu, Xiong Zhang, Xieming Xu, Xiliang Jiang, Shuai‐Hua Wang, Yi Zheng, Xin Huang, Min Chen, Shaofan Wu
Abstract
Rare-earth fluorides have been shown to be promising scintillators for medical radiography applications. However, they are mostly explored in the alkali metal-based category, and it remains challenging to obtain alkaline-earth-based rare-earth fluoride (ALn 2 F 8 ) nanocomposites with high scintillation performance. In this work, rod-shaped BaLu 2 F 8 (BLF) nanocrystals (NCs) are synthesized as a scintillation matrix by a facile liquid–liquid–solid hydrothermal method. Through a lanthanide-doped strategy, Tb-doped BLF NCs exhibit efficient green emission with excellent spectral matching of normal photoelectric conversion devices. The emission performance of Tb 3+ -based BLF is enhanced by the effective energy transfer process from Ce 3+ 5 D 5/2 and Tb 3+ 5 D 3 . Subsequently, the scintillation performance of prepared BLF:Ce,Tb NCs is assessed, with high X-ray sensitivity, a low detection limit (142.4 nGy s –1 ), and a larger relative light output (21 480 photons/MeV), which is 2.4 times higher than that of the commercial scintillator. Furthermore, large-area (25 cm × 25 cm) flexible composite films are further prepared with optimal BLF:Ce,Tb NCs, which show excellent X-ray imaging with a spatial resolution up to 24.6 line pairs mm –1 . These findings demonstrate co-doped ALn 2 F 8 -based nanocomposite scintillators with potential applications in high-resolution industrial nondestructive inspection and biological imaging.