卤化物
光电探测器
材料科学
光电效应
锰
光电子学
紫外线
探测器
X射线探测器
纳米技术
光学
无机化学
化学
物理
冶金
作者
Faguang Zhou,Huanyu Chen,Guoqiang Peng,Yutian Lei,Qi Huang,Zhiwen Jin,Qian Wang
出处
期刊:Small
[Wiley]
日期:2025-03-09
卷期号:21 (16): e2411175-e2411175
被引量:18
标识
DOI:10.1002/smll.202411175
摘要
Abstract Multifunctional photodetectors have driven the development of traditional optical communication technologies and emerging artificial intelligence fields. While three‐dimensional (3D) organic lead trihalides have recently demonstrated potential as versatile photodetectors, the device performance is constrained by ion mobility limitations. In contrast, low‐dimensional metal halide perovskites (MHPVKs) exhibit enhanced intrinsic stability, suppressed ion migration, and exceptional photoelectric properties. Inspired by these advantages, a zero‐dimensional (0D) manganese (Mn)‐based organic–inorganic hybrid halide (MA 2 MnBr 4 ) and fabricated high‐quality films at room temperature via a facile melt‐growth method is presented. Subsequently, Ultraviolet (UV) and X‐ray detectors based on MA 2 MnBr 4 films are fabricated, and their device performance is systematically characterized. The UV photodetector based on an MA 2 MnBr 4 film showed a response rate of 11 mA W −1 and a detection rate of 1.4 × 10 12 Jones. Meanwhile, the MA 2 MnBr 4 ‐based X‐ray detector has a high sensitivity of 1959.9 µC Gy air −1 cm −2 and an exceptionally low detection dose rate of 73.1 nGy air s −1 , both of which are required for medical diagnosis. This study not only advances the understanding of Mn‐based material but also highlights their promise for high‐performance UV and X‐ray detection.
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