Preparation of chitosan sulfate and vesicle formation with a conventional cationic surfactant

Chitosan of high molecular weight and 85% deacetylation was used to prepare chitosan sulfate (CHS) by employing an industrial recognized green and highly reactive sulfating agent gas SO3. FT-IR and solid-state CP-MAS C-13 NMR spectra confirmed that sulfate groups were successfully introduced into chitosan chains with a sulfur content of 16.50% and the substitution degree of 1.75 according to the results of elemental analysis. The aggregation behavior of the mixture of chitosan sulfate polyelectrolyte and oppositely charged surfactant cetyltrimethylammonium bromide (CTAB) was characterized by surface tension, steady-state fluorescent, turbidity, zeta potential and transmission electron microscopy. The results indicate that the CHS/CTAB mixture has pretty high surface activity and low critical aggregation concentration. The CHS/CTAB mixture successively forms spherical aggregates, precipitation, vesicles and micelle aggregates coated by CHS chains by increasing surfactant concentration due to the cooperative hydrophobic and electrostatic interactions.