Multiaddressing Fluorescence Switch Based on a New Photochromic Diarylethene with a Triazole-Linked Rhodamine B Unit

A novel diarylethene with a triazole-linked rhodamine B unit has been synthesized by click chemistry. When triggered by light, proton, and metal ions, the diarylethene can be used as a fluorescence switch, leading to a multiaddressable system. The diarylethene shows sequence-dependent responses thro...

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Bibliographic Details
Published in:Journal of physical chemistry. C 2014-04, Vol.118 (13), p.7010-7017
Main Authors: Pu, Shouzhi, Ding, Haichang, Liu, Gang, Zheng, Chunhong, Xu, Hongyan
Format: Article
Language:English
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Summary:A novel diarylethene with a triazole-linked rhodamine B unit has been synthesized by click chemistry. When triggered by light, proton, and metal ions, the diarylethene can be used as a fluorescence switch, leading to a multiaddressable system. The diarylethene shows sequence-dependent responses through efficient interaction of the specific triazole-linked rhodamine B unit with proton and metal ions. Furthermore, the diarylethene can serve as a naked-eye chemosensor for highly selective recognition of different metal ions in different solvent systems. The diarylethene was highly selective toward Al3+ with remarkable fluorescence change from dark to yellow in acetonitrile, while it selectively recognized Cu2+ with significant fluorescence change from dark to bright yellow in the mixture of acetonitrile and water (v/v = 4/6). Finally, a logic circuit was constructed with the unimolecular platform by using the combinational stimuli of light and chemical species as inputs and the fluorescence intensity at 595 nm as output.
ISSN:1932-7447
1932-7455
DOI:10.1021/jp5001495