亚胺
酰胺
环糊精
化学
高分子化学
组合化学
立体化学
有机化学
催化作用
作者
Tomoya Endo,Takashi Nakamura
标识
DOI:10.1021/acs.joc.5c00783
摘要
The linking of multiple molecular receptors has attracted significant attention as a strategy for constructing unique complexes and controlling the binding states of guest molecules. In this study, we developed imine-bonded dimeric anion receptors capable of recognizing two anions via multipoint hydrogen bonding within each binding pocket. First, we synthesized per(5-N-carboxamide-5-dehydroxymethyl)-α-cyclodextrin derivatives (amide-α-CDs) bearing six aromatic amide groups directly attached to each pyranose ring. It was revealed that their anion recognition ability can be finely tuned by modulating the electron-withdrawing nature of the para-substituents. Moreover, leveraging the characteristic upright orientation of the six aromatic rings in the amide-α-CD, we synthesized amide-CD dimers by linking p-formylphenylamide groups with diamines. An X-ray diffraction analysis confirmed the formation of a well-defined tubular structure of the dimer. Subsequently, we demonstrated that the dimer linked by p-xylylenediimine encapsulated two anion molecules, such as acetate, benzoate, and nitrate, at its two binding sites. In contrast, halide ions, which were encapsulated by the monomer state of the amide-α-CD, did not interact with the dimer, indicating the change in anion selectivity upon the diimine linkage. These structural features and recognition properties suggest potential applications as an artificial ion channel or as a protein-mimetic receptor with multiple binding sites.
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