Self‐Assembly of Novel [2]Catenanes and [2]Pseudorotaxanes Incorporating Thiacrown Ethers or Their Acyclic Analogues

A series of π electron rich macrocyclic polythioethers and their acyclic analogues have been synthesized in good yields. The association constants for the complexation of the π electron deficient bis(hexafluorophosphate) bipyridinium‐based salt, paraquat, by these macrocycles, as well as those for the complexation of corresponding acyclic compounds by the bipyridinium‐based tetracationic cyclophane, cyclobis(paraquat‐ p ‐phenylene), are significantly lower than those observed in the case of the “all‐oxygen” analogues. Nonetheless, yields as high as 86% were recorded in the template‐directed syntheses of [2]catenanes composed of cyclobis(paraquat‐ p ‐phenylene) and the macrocyclic polythioethers. Single‐crystal X‐ray crystallographic analyses of the [2]catenanes incorporating constitutionally unsymmetrical π electron rich macrocyclic polythioethers revealed that, in all cases, the dioxyaromatic units are located inside the cavity of the tetracationic cyclophane component in preference to the dithiaaromatic units. A similar selectivity was observed in solution by variable‐temperature 1 H NMR spectroscopy. However, inversion of the ratio between the two translational isomers of the two [2]catenanes bearing 1,5‐dithi‐anaphthalene, as one of their π electron rich ring systems, and either 1,4‐dioxy‐benzene or 1,5‐dioxynaphthalene, as the other, occurs upon increasing the temperature from –30 to +30 πC. These [2]catenanes can be viewed as temperature‐responsive molecular switches.