材料科学
化学计量学
探测器
钙钛矿(结构)
光电子学
X射线探测器
纳米技术
光学
结晶学
物理
物理化学
化学
作者
Haodi Wu,Xu Chen,Zihao Song,Ao Zhang,Xinyuan Du,Xin He,Hanqi Wang,Ling Xu,Zhiping Zheng,Guangda Niu,Jiang Tang
标识
DOI:10.1002/adma.202301406
摘要
Abstract Perovskites are attracting attention for optoelectronic devices. Despite their promise, the large‐scale synthesis of perovskite materials with exact stoichiometry, especially high‐entropy perovskites, has been a major challenge. Moreover, the difficulty in stoichiometry control also hinders the development of perovskite X‐ray flat‐panel detectors. Previous reports all employed simple MAPbI 3 as the active layer, while the performance still falls short of optimized single‐crystal‐based single‐pixel detectors. Herein, a scalable and universal strategy of a mechanochemical method is adopted to synthesize stoichiometric high‐entropy perovskite powders with high quality and high quantity (>1 kg per batch). By utilizing these stoichiometric perovskites, the first FA 0.9 MA 0.05 Cs 0.05 Pb(I 0.9 Br 0.1 ) 3 ‐based X‐ray flat‐panel detector with low trap density and large mobility–lifetime product (7.5 × 10 −3 cm 2 V −1 ) is reported. The assembled panel detector exhibits close‐to‐single‐crystal performance (high sensitivity of 2.1 × 10 4 µC Gy air −1 cm −2 and ultralow detection limit of 1.25 nGy air s −1 ), high spatial resolution of 0.46 lp/pixel, as well as excellent thermal robustness under industrial standards. The high performance in the high‐entropy perovskite‐based X‐ray FPDs has the potential to facilitate the development of new‐generation X‐ray‐detection systems.
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