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Synthesis, Crystal Structure and Photoelectric Response of All‐Inorganic Copper Halide Salts CsCuCl 3
Author(s) -
Cui Shuting,
Chen Yan,
Tao Siwen,
Cui Jiawen,
Yuan Cang,
Yu Ning,
Zhou Huawei,
Yin Jie,
Zhang Xianxi
Publication year - 2020
Publication title -
european journal of inorganic chemistry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.667
H-Index - 136
eISSN - 1099-0682
pISSN - 1434-1948
DOI - 10.1002/ejic.202000168
Subject(s) - chemistry , halide , photodetector , photoelectric effect , crystal structure , ultraviolet , copper , crystal (programming language) , single crystal , optoelectronics , bodipy , crystallography , inorganic chemistry , optics , materials science , fluorescence , organic chemistry , physics , computer science , programming language
Metal halide salts have attracted widespread attention because of their good physical and chemical properties. In this study, lead‐free copper halide salt CsCuCl 3 single crystals and photodetectors were prepared. According to the single crystal diffraction data, the CsCuCl 3 single crystal has a hexagonal structure with P 6 5 22 (179) space group (7.2399 × 7.2399 × 18.3096 Å, 90.000 × 90.000 × 120.000). The crystal structure along the z ‐axis is a double‐stranded helix structure. To the best of our knowledge, this is the first study on CsCuCl 3 for optoelectronic applications. The CsCuCl 3 photodetector exhibits high light response, sensitivity, and selectivity under 369 nm ultraviolet light and invalid response for visible light (511 nm). The device based on CsCuCl 3 is highly selective for ultraviolet light (2.43 µA/mW) and feature high anti‐interference of visible light (0.0119 µA/mW). The device has the strongest selectivity at 369 nm light, which is 200 times higher than that at 511 nm. The results will be of interest for applications in photodetectors, LEDs, devices, and metal halide salts.