Calorimetric study of non-ionic surfactants. Enthalpies and heat-capacity changes for micelle formation in water of C8E4 and Triton X-100 and micelle size of C8E4

Abstract

Calorimetric measurements have been made of the differential enthalpies of solution in water of liquid n-octyl tetraoxyethylene glycol monoether C₈E₄ and Triton X-100, as function of concentration, at three different temperatures. Experiments have also been carried out with C₈E₄ dissolved in 0.1 mol kg^–1 KCl at 25 °C. Enthalpies of solution of monomers at infinite dilution and micelles at the c.m.c., respectively, were calculated and enthalpies of micelle formation have been derived. Heat-capacity changes for dissolution and for micelle formation were calculated from the temperature variation of the solution enthalpies. The aggregation number n of C₈E₄ micelles has been derived from the calorimetric titration experiments by applying the mass-action model to micelle formation. At 25 °C a value of n= 23 is found which is compatible with the formation of small spherical micelles with a radius equal to the length of the extended n-octyl chain. There are no indications of micellar growth from the calorimetric results as the liquid–liquid phase boundary is approached in the C₈E₄–water system. The presence of 0.1 mol kg^–1 KCl had no significant effect on the enthalpies of solution and micelle formation of C₈E₄ and had no detectable influence on the aggregation number.