Feng Tiao, Zhou Zi'an, An Yi'ni, Chen Long, Fu Yuhua, Zhou Shuyun, Wang Nü, Zheng Jinxiao, Sun Chenghua
Key Laboratory of Photochemical Conversion and Optoelectronic Materials, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing 100190, China.
University of Chinese Academy of Sciences, Beijing 100049, China.
ACS Nano. 2024 Jul 2;18(26):16715-16725. doi: 10.1021/acsnano.4c01761. Epub 2024 Jun 14.
Nonlead low-dimensional halide perovskites attract considerable attention as X-ray scintillators. However, most scintillation screens exhibit pronounced light scattering, which detrimentally reduces the quality of X-ray imaging. Herein, we employed a simple and straightforward solvent-free melt-quenching method to fabricate a large-area zero-dimension (0D) antimony-based perovskite transparent medium, namely (CHP)SbCl (CHP = ethyltriphenylphosphine). The transparency is due to the large steric hindrance of CHP, which hinders the formation of crystals during the quenching process, thus forming a glass with low refractive index and uniform structure. This medium exhibits a high transmittance exceeding 80% in the range of 450-800 nm and shows a large Stokes shift of 245 nm, thereby minimizing light scattering, mitigating self-absorption, and enhancing the clarity of X-ray imaging. Moreover, it exhibits a high radioluminescence light yield of ∼12,535 photons MeV and displays a high X-ray spatial resolution of 30 lp mm owing to its high transparency. This study presents an alternative candidate for achieving high-quality X-ray detection and extends the applicability of transparent perovskite scintillators.
无铅低维卤化物钙钛矿作为X射线闪烁体备受关注。然而,大多数闪烁屏表现出明显的光散射,这对X射线成像质量产生不利影响。在此,我们采用一种简单直接的无溶剂熔体淬火法制备了大面积零维(0D)锑基钙钛矿透明介质,即(CHP)SbCl(CHP = 乙基三苯基膦)。其透明度归因于CHP的大空间位阻,在淬火过程中阻碍了晶体形成,从而形成具有低折射率和均匀结构的玻璃。该介质在450 - 800 nm范围内表现出超过80%的高透过率,并显示出245 nm的大斯托克斯位移,从而最大限度地减少光散射、减轻自吸收并提高X射线成像的清晰度。此外,由于其高透明度,它表现出约12,535光子/MeV的高辐射发光光产额,并显示出30 lp/mm的高X射线空间分辨率。本研究为实现高质量X射线检测提供了一种替代候选材料,并扩展了透明钙钛矿闪烁体的适用性。
