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[Angew. Chem. Int. Ed.] Self-Adaptive Aromatic Cation-π Driven Dimensional Polymorphism in Supramolecular Polymers for the Photocatalytic Oxidation and Separation of Aromatic/Cyclic Aliphatic Compounds
writer:Ju-An Zhang+ , Yi Chao+ , Xuedong Xiao, Shuai Luo, Wenzhuo Chen, and Wei Tian*
keywords:Cation-π interaction , Polymorphism ,Photocatalytic oxidation , Supramolecular chemistry
source:期刊
specific source:Angew. Chem. Int. Ed. 2024, e202402760 (12 of 13)
Issue time:2024年

    The phenomenon of polymorphism is ubiquitous in nature, the controlled manipulation of which not only increases our ontological understanding of nature but also facilitates the conceptualization and realization of novel functional materials. However, achieving targeted polymorphism in supramolecular assemblies (SAs) remains a formidable challenge, largely because of the constraints inherent in controlling the specific binding motifs of noncovalent interactions. Herein, we propose self-adaptive aromatic cation-π binding motifs to construct polymorphic SAs in both the solid and solution states. Using distinct discrete cation-π-cationand long-range cation-π binding motifs enables control of the self-assembly directionality of a C2h-symmetric bifunctional monomer, resulting in the successful formation of both two-dimensional and three-dimensional crystalline SAs (2D-CSA and 3D-CSA). The differences in the molecular packing of 3D-CSA compared with that of 2D-CSA significantly improve the charge separation and carrier mobility, leading to enhanced photocatalytic activity for the aerobic oxidation of thioanisole to methyl phenyl sulfoxide (yield of 99% vs 57%). 2D-CSA, which has a vertical extended structure with favorable stronger interaction with toluene though face-to-face cation-π interactions than methylcyclohexane, shows higher toluene/methylcyclohexane separation efficiency than 3D-CSA (96.9% for 2D-CSA vs 56.3% for 3D-CSA).


全文链接:https://onlinelibrary.wiley.com/doi/10.1002/anie.202402760。