材料科学
发光
离子键合
卤化物
光电子学
闪烁
激发态
二聚体
产量(工程)
光致发光
荧光
Crystal(编程语言)
单晶
纳米技术
量子产额
图像分辨率
胺气处理
光化学
离子晶体
分辨率(逻辑)
聚集诱导发射
CMOS芯片
激光阈值
闪烁体
微加工
对偶(语法数字)
光子学
离子液体
作者
Hu Guan,Luxuan Men,Zhuoer Cai,Yiping Du,Qingsong Hu,Taifeng Lin,Feng Luo,Zhengguang Yan,Jiawen Xiao
标识
DOI:10.1002/adma.202520967
摘要
ABSTRACT Copper(I)‐based halides are promising for X‐ray detection due to their excellent scintillation efficiency and solution processability. However, the structure–property relationship remains elusive, and their practical viability for X‐ray imaging is largely unverified. In this work, we employ a bond‑mode control strategy to synthesize two compounds from the same amine precursor: ionic (4‑ATHP) 2 CuI 3 and coordinative (4‑ATHP) 4 Cu 4 I 4 (4‐ATHP = 4‐Aminotetrahydropyran), providing a model system to study their photophysics and underlying mechanism. (4‑ATHP) 2 CuI 3 adopts a unique 1D crystal structure with alternating arrangement of Cu 2 I 6 dimers, which shows excitation‑dependent dual emissions. Experimental and calculation results indicate that the dual emissions originate from the Cu 2 I 6 dimer with a different Cu─Cu bond length. In contrast, the (4‑ATHP) 4 Cu 4 I 4 shows single emission centered at 635 nm, in which the organic component contributes to the excited state. The ionic (4‑ATHP) 2 CuI 3 achieves a much higher light yield (55 923 photons/MeV) than that of the coordinative counterpart (31 866 photons/MeV). Furthermore, a large‑area flexible film (15 × 20 cm 2 ) based on (4‑ATHP) 2 CuI 3 delivers a spatial resolution of 20 lp/mm. Critically, integrating this film into a CMOS imager demonstrates superior dynamic imaging without afterglow, outperforming the commercialized CsI: Tl screen. This study not only deciphers the bond‑mode‑dependent photophysics but also validates a commercial‑grade scintillator, paving the way for high‑performance X‑ray imaging materials.
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