Hydrogen-bond-driven supramolecular self-assembly of diacetylene derivatives for topochemical polymerization in solution

Literature Information

Publication Date 2020-01-28
DOI 10.1039/C9PY01745C
Impact Factor 5.582
Authors

Jianqiang Fan, Xiao Xu, Wei Yu, Zhihong Wei, Dengqing Zhang


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Abstract

We report here on a set of diacetylene-derivatized compounds by the introduction of amide functions as structure directing agents. Facilitated by hydrogen-bonding, the ordered supramolecular nanofibers comprising 2 placed the reactive diynes at appropriate positions to allow for topochemical polymerizations upon photoirradiation in methylcyclohexane. However, no polymerization reaction occurred in 1 because phenyl groups were too close to the diacetylene moiety, which may limit the geometry of diacetylene functions required for 1,4-polymerization and inhibit the topochemical polymerization. This mild, additive-free and solution-processable polymerization of diacetylene monomers is particularly promising because it enables a wider range of applications in patterning and processing of π-conjugated materials and the rigidification of conjugated polymeric networks.

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Polymer Chemistry
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