Structural Modulation Reduces Carrier Localization and Enhances Organic‐Inorganic Coupling to Improve Charge Transport in Hybrid Manganese Halide X‐Ray Detectors

卤化物 材料科学 联轴节(管道) 探测器 光电子学 载流子 调制(音乐) 电子迁移率 检出限 多面体 离子 纳米技术 热传导 表征(材料科学) 工作(物理) 热稳定性 频道(广播) 灵敏度(控制系统) 降级(电信) 直接耦合 环境友好型 宽禁带半导体 功勋 电荷(物理) 化学物理
作者
Faguang Zhou,Guoqiang Peng,Chenghan Jiang,ZhenHua Li,Zhiwen Jin,Qian Wang
出处
期刊:Small [Wiley]
卷期号:22 (21): e10600-e10600
标识
DOI:10.1002/smll.202510600
摘要

ABSTRACT Zero‐dimensional (0D) organic‐inorganic hybrid manganese halides (OIHMnHs) have garnered significant interest for direct X‐ray detection due to their low ion mobility, excellent optoelectronic properties, and environmental friendliness. However, the isolated nature of their inorganic polyhedra inherently limits carrier transport capacity. Therefore, enhancing the coupling between organic cations and inorganic polyhedra to improve carrier transport is crucial, yet technically challenging, for advancing high‐performance X‐ray detectors. Here, the 0D TMPA 2 MnBr/Cl 4 (TMPA, trimethylphenylammonium) single crystals (SCs) are reported, in which theoretical calculations reveal that the A‐site cation in TMPA 2 MnBr 4 primarily contributes to the conduction band minimum (CBM), which facilitates the establishment of a multidimensional carrier transport channel between [MnBr 4 ] 2− and [TMPA] + . Meanwhile, the optimized TMPA 2 MnBr 4 reduces carrier localization within the inorganic polyhedron through structural modulation, enhancing organic‐inorganic coupling and thereby improving carrier transport capacity and X‐ray detector performance. Consequently, the resulting TMPA 2 MnBr 4 SC detector demonstrates remarkable performance with high sensitivity (1.04 × 10 5 µC Gy air −1 cm −2 ) and a low detection limit of 72.6 nGy air s −1 . Notably, the device exhibits superior operational stability (8060 µC Gy air −1 cm −2 , 373 K). This work lays the foundation for advancing environmentally friendly X‐ray detectors with high sensitivity, excellent thermal stability, and enhanced commercial viability for medical imaging applications.
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