期刊
NANO LETTERS
卷 23, 期 19, 页码 8932-8939出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.nanolett.3c02356
关键词
hybrid metal halides; water-molecule-induced transformation; anticounterfeiting; digital encryption and decryption; optical logical gate
A one-dimensional hybrid metal halide with reversible photoluminescence transformation is discovered, where water molecule serves as an external stimulus for the reversible transition between red and green emission, displaying remarkable stability. With the assistance of heating and cooling, complex functionalities such as encryption-decryption and optical AND logical gate are achieved, facilitating the development of anticounterfeiting information security.
Hybrid metal halides with reversible transformation of structure and luminescence properties have attracted significant attention in anticounterfeiting. However, their long transition time and slow response rate may hinder the rapid identification of confidential information. Here, a one-dimensional hybrid manganese-based halide, i.e., (C5H11N3)MnCl2Br2 center dot H2O, is prepared and demonstrates the phenomenon of water-molecule-induced reversible photoluminescence transformation. Heating for <40 s induces a dynamic transfer of red-emissive (C5H11N3)MnCl2Br2 center dot H2O to green-emissive (C5H11N3)MnCl2Br2. In addition, the green emission can gradually revert to red emission during a cooling process in a moist environment, demonstrating excellent reversibility. It is found that the water molecule acts as an external stimulus to realize the reversible transition between red and green emission, which also exhibits remarkable stability during repeated cycles. Furthermore, with the assistance of heating and cooling, a complex digital encryption-decryption and an optical AND logical gate are achieved, facilitating the development of anticounterfeiting information security.
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