Inclusion complexation of surfactant with fi-cyclodextrin and its effect on the mixed micellization of cationic/anionic surfactants

Inclusion complexation of surfactant with fi-cyclodextrin (fi-CD) is an active research topic in supramolecular chemistry. For the mixed system of fi-CD and cationic/anionic surfactants, the thermodynamic and molecular dynamics (MD) simulation studies can provide valuable information about synergism between cationic and anionic surfactants and competition between inclusion complexation and mixed micellization. Experimental results indicated a synergistic effect between CTAB and SL in surface tension reduction efficiency and effec-tiveness, and in mixed micelle formation. The surface tension experiments indicated that for single surfactant CTAB or SL, the binding stoichiometry was fi-CD:surfactant = 1:1. For the 1:1 fi-CD/surfactant inclusion com-plexes, umbrella sampling simulation results indicated that SL bound preferentially to the wide rim of fi-CD, while, CTAB had a similar probability of binding to either rim of fi-CD. Both experimental and simulation results indicated that the inclusion affinity of fi-CD with CTAB was significantly stronger than that of fi-CD with SL. Due to the electrostatic attraction between the oppositely charged headgroups, the distance between adjacent CTA+ and L ions was significantly shorter than that between two adjacent CTA+ (or L-) ions. It encouraged us to explore whether the 1:1:1 fi-CD/CTAB/SL inclusion complex could form. The MD simulation results indicated that all four possible initial 1:1:1 conformations were unstable. The final stable inclusion complexes were in 1:1 fi-CD/CTAB and 1:1 fi-CD/SL forms consistent with the umbrella sampling simulation results of the single sur-factant. The results suggested that the inclusion interaction becomes less competitive with mixed micellization as the composition approaches the equimolar ratio of CTAB and SL.

Automated summary

The inclusion complexation of surfactant with fi-cyclodextrin (fi-CD) is a research topic in supramolecular chemistry. Thermodynamic and molecular dynamics (MD) simulation studies provide valuable information about the synergism between cationic and anionic surfactants and the competition between inclusion complexation and mixed micellization. Experimental and simulation results indicate a stronger inclusion affinity of fi-CD with CTAB compared to SL, and a less competitive interaction between inclusion and mixed micellization when the composition approaches the equimolar ratio of CTAB and SL.