Responsiveness and Morphology Study of Dual Stimuli-Controlled Supramolecular Polymer

The synthesis and characterization of a linear supramolecular polymer formed by dual host–guest recognitions is presented. The polymer linked by the orthogonal interactions of azobenzene with β-cyclodextrin and methyl viologen with sulfonatocalix[4]arene is constructed, and the morphology change along with the formation and vanishment of host–guest interaction is investigated. The reversible disassembly–reassembly of the polymer induced by light and the redox process are monitored by UV–vis and cyclic voltammetry, respectively. The interesting morphology differences between the monomer guest (G), supramolecular polymer (P), and light dissembled product pseudorotaxane (D1) are observed and analyzed. G conducts self-assembly into a short rod with average width of 83 nm due to the molecular amphipathy and π–π interaction between naphthalene nucleuses, while P exhibits 20 nm wide line morphology. Irradiating P with 365 nm light, the corresponding aggregation D1 shows as 35 nm wide short rod.