LAUSR

Cationic polyelectrolytes find potential applications in electronic device fabrication, biosensing as well as in biological fields. Herein, a series of cationic main-chain polyelectrolytes with pyridinium-based p-phenylenevinylene units that are connected via alkylene spacers of varying lengths are synthesized by a base-catalyzed aldol-type coupling reaction. Their mean average molecular weights range from 15 000 to 32 000 g mol-1, corresponding to about 16–33 repeat units. Due to the presence of alkyl side-chains and alkylene spacers as well as cationic hard-charges the polymers are endowed with amphiphilic character and hence, aggregation of these polyelectrolytes at high concentration leads to thermoreversible physical gel formation in dimethyl sulfoxide accompanied by interchain interactions. Morphological analysis shows spherical aggregates in case of C16-Poly-S12 in dimethyl sulfoxide. Dependence of gelation behavior on the length of alkyl side-chains and alkylene spacers of the polyelectrolytes are addressed.