Molecular recognition directed self-assembly of supramolecular architectures

This paper reviews some of our research on three classes of supramolecular architectures which are generated via various combinations of molecular, macromolecular, and supramolecular chemistry. The ability of these supramolecular architectures to form liquid crystalline phases is determined by the shape of the self-assembled architecture and will be used to visualize it via various characterization techniques. The molecular design of selected examples of structural units containing taper-shaped exo-receptors and crown ether, oligooxyethylenic, and H-bonding based endo-receptors which self-assemble into cylindrical chan-nel-like architectures via principles resembling those of tobacco mosaic virus (TMV), of macrocyclics which self-assemble into supramolecular rigid “rodlike” architectures and of hyperbranched polymers which self-assemble assemble.into a willowlike architecture will be discussed. In the case of TMV-like supramolecular architectures, a comparison between various supramolecular (generated via H-bonding, ionic, and electrostatic interactions) and molecular “polymer backbones” will be made. The present state of the art of the engineering of these supramolecular architectures and some possible novel material functions derived from them will be briefly mentioned.