Visible light-triggered gel-to-sol transition in halogen-bond-based supramolecules

Photoresponsive supramolecular gels have aroused continuous attention because of their extensive applications; however, most studies utilize UV light, which inevitably brings about some health and environmental issues. The halogen bond is an important driving force for constructing supramolecules du...

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Bibliographic Details
Published in:Soft matter 2019-08, Vol.15 (31), p.6411-6417
Main Authors: Tong, Xun, Qiu, Yuan, Zhao, Xiaoyu, Xiong, Bijin, Liao, Rongzhen, Peng, Haiyan, Liao, Yonggui, Xie, Xiaolin
Format: Article
Language:English
Subjects:
Energy conversion
Energy levels
Energy storage
Fluorine
Gels
Hydrophobicity
Information storage
Irradiation
Isomers
Light
Light irradiation
Morphology
Phase transitions
Sol-gel processes
Supramolecular compounds
Ultraviolet radiation
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Summary:Photoresponsive supramolecular gels have aroused continuous attention because of their extensive applications; however, most studies utilize UV light, which inevitably brings about some health and environmental issues. The halogen bond is an important driving force for constructing supramolecules due to its high directionality, tunable strength, good hydrophobicity, and large size of the halogen atoms. Yet, it still remains a formidable challenge to utilize halogen bonds as a driving force to fabricate a visible light responsive gel. In this work, to fabricate such a gel, azopyridine-containing Azopy-C n ( n = 8, 10, 12) was selected as a halogen bond acceptor, while 1,2-bis(2,3,5,6-tetrafluoro-4-iodophenyl)diazene (BTFIPD) was chosen as both the halogen bond donor and visible light responsive moiety. The visible light response of BTFIPD resulted from the significant separation of n-π* energy levels between trans and cis isomers due to the introduction of an electron-withdrawing group (fluorine) to azobenzene at the ortho -position. Interestingly, the gel exhibited a good gel-to-sol transition behavior upon green light irradiation. At the same time, the morphologies varied from uniform narrow flakes to broad sheets with increasing illumination time. We provide an environmentally-friendly visible light-triggered method to regulate the phase transition of supramolecular materials in applications ranging from energy conversion to information storage. Photoresponsive supramolecular gels have aroused continuous attention because of their extensive applications; however, most studies utilize UV light, which inevitably brings about some health and environmental issues.
ISSN:1744-683X
1744-6848
DOI:10.1039/c9sm01310e