Tuning the Photoinduced Electron Transfer in a Zr‐MOF: Toward Solid‐State Fluorescent Molecular Switch and Turn‐On Sensor

The immobilization of fluorescent photoinduced electron transfer (PET) switches/sensors into solid state, which usually cannot maintain their identical properties in solution, has remained a big challenge. Herein, a water‐stable anthracene and maleimide appended zirconium‐based‐metal–organic framewo...

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Veröffentlicht in:	Advanced materials (Weinheim) 2018-08, Vol.30 (34), p.e1802329-n/a
Hauptverfasser:	Gui, Bo, Meng, Yi, Xie, Yang, Tian, Jianwu, Yu, Ge, Zeng, Weixuan, Zhang, Guanxin, Gong, Shaolong, Yang, Chuluo, Zhang, Deqing, Wang, Cheng
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Sprache:	eng
Schlagworte:	Anthracene Electron transfer Fluorescence fluorescent photoinduced electron transfer Immobilization Logic circuits Metal-organic frameworks Molecular machines molecular switches Sensors Solid state stimuli‐responsive metal‐organic framework Switches Tuning turn‐on sensors Zirconium
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creator	Gui, Bo Meng, Yi Xie, Yang Tian, Jianwu Yu, Ge Zeng, Weixuan Zhang, Guanxin Gong, Shaolong Yang, Chuluo Zhang, Deqing Wang, Cheng
description	The immobilization of fluorescent photoinduced electron transfer (PET) switches/sensors into solid state, which usually cannot maintain their identical properties in solution, has remained a big challenge. Herein, a water‐stable anthracene and maleimide appended zirconium‐based‐metal–organic framework (Zr‐MOF; UiO‐68‐An/Ma) is reported. Unlike the regular intramolecular “fluorophore–spacer–receptor” format, the separated immobilization of fluorescent (anthracene) and acceptor (maleimide) groups into the framework of a multivariate MOF can also favor a pseudo‐intramolecular fluorescent PET process, resulting in UiO‐68‐An/Ma with very weak fluorescence. Interestingly, after Diels–Alder reaction or thiol‐ene reaction of maleimide groups, the pseudo‐intramolecular fluorescent PET process in UiO‐68‐An/Ma fails and the solid‐state fluorescence of the crystals is recovered. In addition, UiO‐68‐An/Ma shows an interesting application as solid‐state fluorescent turn‐on sensor for biothiols, with the naked eye response at a low concentration of 50 µmol L−1 within 5 min. This study represents a general strategy to enable the efficient tuning of fluorescent PET switches/sensors in solid state, and considering the fluorescence of the PET‐based MOFs can be restored after addition of analyte/target species, this research will definitely inspire to construct stimuli‐responsive fluorescent MOFs for interesting applications (e.g., logic gate) in future. A solid‐state fluorescent photoinduced electron transfer (PET) switch/sensor: Unlike the regular intramolecular “fluorophore–spacer–receptor” format, the separated immobilization of fluorescent and acceptor groups into the framework of a crystalline porous multivarite metal–organic framework can also favor a pseudo‐intramolecular fluorescent PET process. Moreover, by tuning the electron‐accepting ability of the acceptor in the framework, the fluorescent PET switch/sensor can be efficiently tuned in the solid state.
doi_str_mv	10.1002/adma.201802329
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subjects	Anthracene Electron transfer Fluorescence fluorescent photoinduced electron transfer Immobilization Logic circuits Metal-organic frameworks Molecular machines molecular switches Sensors Solid state stimuli‐responsive metal‐organic framework Switches Tuning turn‐on sensors Zirconium
title	Tuning the Photoinduced Electron Transfer in a Zr‐MOF: Toward Solid‐State Fluorescent Molecular Switch and Turn‐On Sensor
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