Novel clay-like and helical superstructures generated using arene–arene interactions
Abstract
Two novel supramolecular arrays are reported, which rely upon the noncovalent linking of cationic 4,4′-pyridylpyridinium units by enclathrated benzene (PhH) molecules through aromatic π–π interactions. Dicationic clathrands, consisting of two 4,4′-pyridylpyridinium units connected via aryldimethylene spacers, are cocrystallized with PhH to generate clathrated supramolecular arrays. A p-xylyl-spaced dicationic clathrand crystallizes with PhH to produce a layered solid, in which π-stacked dication–PhH layers are separated by bands containing PF6- anions and PhH molecules to form a superstructure that is reminiscent of an organic clay. On the other hand, its p,p′-bitolyl-spaced congener cocrystallizes with PhH to create a novel helical supramolecular array.