Studies on incorporation of non-ionic solutes in zwitterionic surfactant micelles

One of the most important properties of aqueous micellar solutions is their capacity to incorporate organic solutes with different degrees of polarity and hydrophobicity. As demonstrated by Quina et aI. (J. Phys. Chem., 1995, 99, 1170811714), one of the most promissing methods for obtaining correlations between solubilization eficiency and the solute and surfactant structure is via the use of linear solvation energy relationships (LSERs). The present work investigates the incorporation of a series of neutral solutes in micelles of the zwitterionic detergents hexadecyldimethylammonium propanesulfonate (CDAPS; 31 solutes) and the N-oxide of dodecyldimethylamine (DDAO; 33 solutes), as well as in the cationic micelles of the protonated form of DDAO (DDAOH+; 33 solutes). The incorporation constants were determined experimentally by photophysical techniques, from solubility measurements and by liquid and gas chromatographic methods. Analysis of the results by multiple regression techniques led to the following LSERs: CDAPS: Log Ks = - 0,55 + 0,99 R2 - 0,82 π2 + 0,36 Σα2 - 0,99 Σβ2 + 2,73 Vx DDAOH+: Log Ks = - 0,68 + 1,30 R2 - 0,78 π2 + 0,67 Σα2 - 1,45 Σβ2 + 2,29 Vx DDAO: Log Ks = - 0,46 + 0,89 R2 - 0,61 π2 + 0,82 Σα2 - 1,66 Σβ2 + 2,59 Vx where Σα2 and Σβ2 are the hydrogen bond acidity and basicity of the solute, R2 is the excess molar refraction, π2 is the dipolarity and Vx corresponds to the molar volume of the solute. The LSERs obtained demonstrate that zwitterionic surfactants are distinct from the other systems investigated previously. However, the similarity of the LSERs of DDAO and DDAOH+ suggests that incorporation of solutes is not affected by changes in the structure (charge) ofthe polar headgroup. (AU)