材料科学
电阻率和电导率
半导体
光电子学
探测器
单晶
卤化物
辐射
晶体生长
Crystal(编程语言)
粒子探测器
X射线探测器
光学
结晶学
电气工程
无机化学
化学
物理
计算机科学
程序设计语言
工程类
作者
Xuebao Zhang,Qingbo Wang,Ying Gao,Junying Zhang,Youpeng Wu,Peijie Ma,Lin Ma,Jianing Cai,Fenglei Niu,Qiang Zhao,Yunchao Tang,Junwei Bian,Chenming Liang,Chunxia Shen,Zeqian Wu,Fang Liu,Zhi‐Ling Hou,Jinxing Cheng
标识
DOI:10.1002/aelm.202400972
摘要
Abstract Lead halide perovskites have shown high performance in radiation detection techniques owing to their excellent optoelectronic properties and stability. However, the high resistivity of the CsPbBr 3 radiation detector is intensively dependent on the growth quality of the single crystal, which is closely related to temperature gradients or the introduction of additives. Herein, a CsPbBr 3 single crystal with high radiation performance is grown based on the proposed temperature‐concentration balance (TCB) method. The prepared perfect single crystal remains high quality in repeated experiments, which belongs to the Pnma space group, benefiting from the effective growth method. Based on the CsPbBr 3 single crystal, the fabricated detector with the asymmetrical Au‐In electrodes demonstrates outstanding linearity under reverse bias. It exhibits a lower dark current (2.66 × 10 −2 nA) and high resistivity, which helps acquire a broader radiation measurement range. Moreover, the emission spectrum of the CsPbBr 3 single crystals exhibits a sharp emission peak at 527 nm and narrower full width at half maximum, making crystals easily couple into radiation detectors. These findings provide insight into the growth and regulation of CsPbBr 3 crystal for more extensive applications in radiation detection in the future.
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