A Dual‐Stimuli‐Responsive Coordination Network Featuring Reversible Wide‐Range Luminescence‐Tuning Behavior

We herein report a new coordination network that deforms in a smooth and reversible manner under either thermal or pressure stimulation. Concomitantly, the organic fluorophores coordinatively bound to the channel in a face‐to‐face arrangement respond to this structural deformation by finely adapting...

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Veröffentlicht in:	Angewandte Chemie International Edition 2019-04, Vol.58 (17), p.5614-5618
Hauptverfasser:	Yao, Zhao‐Quan, Xu, Jian, Zou, Bo, Hu, Zhenpeng, Wang, Kai, Yuan, Yi‐Jia, Chen, Ya‐Ping, Feng, Rui, Xiong, Jian‐Bo, Hao, Jialei, Bu, Xian‐He
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Sprache:	eng
Schlagworte:	Chemical compounds Compression Conformation Deformation Dependence Emission Emissions Fluorescence Fluorophores Luminescence materials science piezofluorochromism Pressure Stimuli stimuli-responsive materials thermofluorochromism
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creator	Yao, Zhao‐Quan Xu, Jian Zou, Bo Hu, Zhenpeng Wang, Kai Yuan, Yi‐Jia Chen, Ya‐Ping Feng, Rui Xiong, Jian‐Bo Hao, Jialei Bu, Xian‐He
description	We herein report a new coordination network that deforms in a smooth and reversible manner under either thermal or pressure stimulation. Concomitantly, the organic fluorophores coordinatively bound to the channel in a face‐to‐face arrangement respond to this structural deformation by finely adapting their conformation and arrangement. As a result, the material exhibits a remarkable dual‐stimuli‐responsive luminescence shift across almost the entire visible region: The emission color of the crystal gradually changes from cyan to green upon heating and then to red upon pressure compression. Furthermore, each stage exhibits a linear dependence of both the emission maximum and intensity on the stimulus and is fully reversible. Coping with pressure and heat: In response to changes in temperature and pressure, the flexible scaffold of a luminescent coordination network underwent smooth and reversible structural deformation that regulated the conformation and arrangement of the emissive organic molecules coordinatively bound to the channel in the structure. As a result, a reversible fluorescence shift across almost the entire visible region was observed (see picture).
doi_str_mv	10.1002/anie.201900190
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subjects	Chemical compounds Compression Conformation Deformation Dependence Emission Emissions Fluorescence Fluorophores Luminescence materials science piezofluorochromism Pressure Stimuli stimuli-responsive materials thermofluorochromism
title	A Dual‐Stimuli‐Responsive Coordination Network Featuring Reversible Wide‐Range Luminescence‐Tuning Behavior
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