Observation of complex thermal transitions for mixed micelle solutions containing alkyldimethylphosphine oxides and phospholipids and the accompanying cloud points

Abstract

The thermal properties of various mixtures of two nonionic surfactants, decyldimethylphosphine oxide (APO10) and dodecyldimethylphosphine oxide (APO12) and two phospholipids, dimyristoylphosphatidyl choline (DMPC) and dipalmitoylphosphatidyl choline (DPPC), were examined by differential scanning calorimetry at various mole fractions. The addition of APO12 to DMPC multilamellar vesicles lowered the temperature of the main transition, produced considerable broadening, and eliminated the pre-transition. Phase separation, as evidenced by the existence of a cloud point, T cp, occurred when the mole fraction of APO12, with respect to DMPC was 0.58 and above. A small abrupt increase in heat capacity was observed at, or slightly above, the cloud point of APO12 and all mixed micelle solutions. It appeared that mixed micelles coexisted with mixed bilayers when the mole fraction was between 0.58 and 0.75 and perhaps as low as a mole ratio of 0.32. All of the mixtures, except APO12/DMPC, exhibited a clear endotherm below the temperature corresponding to the cloud point, which likely reflects the growth in micellar size. Overlapping chain length dependent endothermic peaks, perhaps resulting from reorganization and/or continued association of the micelles, were observed above the cloud point for all of the mixtures except for APO10/DMPC solutions. However, solutions of mixed micelles consisting of APO10/DMPC with mole fractions of surfactant between 0.81 and 0.93 portrayed a broad unidentified exotherm of about 2±1 kcal/mol, which was centered nearly 10–20 °C above the cloud point.