A multi-stimuli-responsive metallosupramolecular gel based on pillararene hierarchical assembly

A metallosupramolecular polymer network (DSPy⊂SHP5@Zn) is constructed by the hierarchical self-assembly of a double-armed pillar[5]arene host (SHP5), a ditopic guest (DSPy), and Zn 2+ ions, in which host-guest recognition and metal-ligand coordination interactions play a crucial role. Owing to the r...

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Bibliographic Details
Published in:Polymer chemistry 2023-01, Vol.14 (5), p.633-643
Main Authors: Li, Yong-Fu, Guan, Wen-Li, Wang, Chun-Yu, Wang, Yan, Lin, Qi, Yang, Ying-Wei
Format: Article
Language:English
Subjects:
Gels
Polymer chemistry
Recognition
Self-assembly
Sol-gel processes
Stimuli
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Summary:A metallosupramolecular polymer network (DSPy⊂SHP5@Zn) is constructed by the hierarchical self-assembly of a double-armed pillar[5]arene host (SHP5), a ditopic guest (DSPy), and Zn 2+ ions, in which host-guest recognition and metal-ligand coordination interactions play a crucial role. Owing to the reversible feature of both dynamic covalent and noncovalent interactions, the DSPy⊂SHP5@Zn assembly can form metallosupramolecular gels, which show good sol-gel transition properties in response to various external stimuli, including thermal, redox, and pH changes, and competitive guests. Interestingly, the DSPy⊂SHP5@Zn assembly can serve as an excellent sensor for highly selective dual-channel recognition of OH&cmb.macr;, and therefore a convenient and feasible test kit for sensing OH&cmb.macr; anions based on DSPy⊂SHP5@Zn is fabricated. The present work provides a facile and efficient method to construct multi-stimuli-responsive smart gels, which may further enrich and expand the scope and application of smart supramolecular materials. A metallosupramolecular polymer network is constructed by hierarchical self-assembly of a double-armed pillar[5]arene, a ditopic guest, and zinc ions, where host-guest recognition and metal-ligand coordination interactions play a crucial role.
ISSN:1759-9954
1759-9962
DOI:10.1039/d2py01453j