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A Hydrogen-Bonded,Hexagonally Networked,Layered Framework with Large Aperture Designed by Structural Synchronization of a Macrocycle and Supramolecular Synthon
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作者 Hiroki Yoshimura ryusei oketani +2 位作者 Miki Naruoka Norimitsu Tohnai Ichiro Hisaki 《Precision Chemistry》 2024年第5期221-228,共8页
To develop porous organic frameworks,precise control of the stacking manner of two-dimensional porous motifs and structural characterization of the resultant framework are important.From these points of view,porous mo... To develop porous organic frameworks,precise control of the stacking manner of two-dimensional porous motifs and structural characterization of the resultant framework are important.From these points of view,porous molecular crystals formed through reversible intermolecular hydrogen bonds,such as;hydrogen-bonded organic frameworks(HOFs),can provide deep insight because of their high crystallinity,affording single-crystalline X-ray diffraction analysis.In this study,we demonstrate that the stacking manner of hydrogen-bonded hexagonal network(HexNet)sheets can be controlled by synchronizing a homological triangular macrocyclic tecton and a hydrogen-bonded cyclic supramolecular synthon called the phenylene triangle.A structure of the resultant HOF was crystallographically characterized and revealed to have a large channel aperture of 2.4 nm.The HOF also shows thermal stability up to 290°C,which is higher than that of the conventional HexNet frameworks. 展开更多
关键词 hydrogen-bonded organicframeworks hexagonalnetwork MACROCYCLE carboxylicacid POROSITY
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