Unveiling Polymerization Mechanism in pH‐regulated Supramolecular Fibers in Aqueous Media

An amine functionalized C3‐symmetric benzotrithiophene (BTT) monomer has been designed and synthetized in order to form pH responsive one‐dimensional supramolecular polymers in aqueous media. While most of the reported studies looked at the effect of pH on the size of the aggregates, herein, a detailed mechanistic study is reported, carried out upon modifying the pH to trigger the formation of positively charged ammonium groups. A dramatic and reversible change in the polymerization mechanism and size of the supramolecular fibers is observed and ascribed to the combination of Coulombic repulsive forces and higher monomer solubility. Furthermore, the induced frustrated growth of the fibers is further employed to finely control the one‐dimensional supramolecular polymerisation and copolymerization processes. The synthesis and self‐assembly in aqueous media of an amine functionalized C3‐symmetric benzotrithiophene is reported. A dramatic change in the polymerization mechanism and size of the supramolecular fibers is observed upon modifying the pH, which is further employed to finely control the one‐dimensional supramolecular polymerization and copolymerization processes.