1. Ripening of catanionic aggregates upon dialysis
- Author
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Luc Belloni, Clarisse Mariet, Mélanie Moskura, Patrick Berthault, Youlia Michina, Thomas Zemb, and David Carriere
- Subjects
Chromatography ,Morphology (linguistics) ,Time Factors ,Chemistry ,Surface Properties ,Vesicle ,Inorganic chemistry ,Fatty Acids ,Cationic polymerization ,Halide ,Surfaces and Interfaces ,Condensed Matter Physics ,High-performance liquid chromatography ,Ion ,Quaternary Ammonium Compounds ,Surface-Active Agents ,Pulmonary surfactant ,Cations ,Electrochemistry ,General Materials Science ,Particle Size ,Dialysis (biochemistry) ,Dialysis ,Spectroscopy ,Micelles - Abstract
We have studied the dialysis of surfactant mixtures of two oppositely charged surfactants (catanionic mixture) by combining HPLC, neutron activation, confocal microscopy, and NMR. In mixtures of n-alkyl trimethylammonium halides and n-fatty acids, we have demonstrated the existence of a specific ratio between both surfactant contents (anionic/cationic almost equal to 2:1) that determines the morphology, the elimination of ions, and the elimination of the soluble cationic surfactant upon dialysis. In mixtures prepared with lower anionic surfactant contents, ill-defined aggregates are formed, and dialysis quickly eliminates the ion pairs (H+X-) formed upon surfactant association and also the cationic surfactant until a limiting 2:1 ratio is reached. By contrast, mixtures prepared above the anionic/cationic 2:1 ratio form micrometer-sized vesicles resistant to dialysis. These closed aggregates retain a significant number of ions (30%) over 1000 hours, and dialysis is unable to eliminate the soluble surfactant. The interactions between surfactants have been estimated by measuring the partitioning of the CTA molecules between the catanionic bilayer, the bulk solution, and mixed micelles when they exist. The mean extraction free energy per CTA in the membrane has been found to increase by 1 kBT to 2 kBT as the soluble surfactant is depleted from the bilayer, which is enough to stop the dialysis. The vesicles produced above the anionic/cationic 2:1 ratio are formed by frozen bilayers and are resistant to extensive dialysis and therefore show an interesting potential for encapsulation as far as durability is concerned.
- Published
- 2009