87 research outputs found
Understanding solubilisation using principles of surfactant self-assembly as geometrical constraints
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Influence of the extracted solute on the aggregation of malonamide extractant in organic phases: Consequences for phase stability
Get PDFMolten fatty acid based microemulsions †
Get PDFInternational audiencea We show that ternary mixtures of water (polar phase), myristic acid (MA, apolar phase) and cetyltrimethyl-ammonium bromide (CTAB, cationic surfactant) studied above the melting point of myristic acid allow the preparation of microemulsions without adding a salt or a co-surfactant. The combination of SANS, SAXS/ WAXS, DSC, and phase diagram determination allows a complete characterization of the structures and interactions between components in the molten fatty acid based microemulsions. For the different structures characterized (microemulsion, lamellar or hexagonal phases), a similar thermal behaviour is observed for all ternary MA/CTAB/water monophasic samples and for binary MA/CTAB mixtures without water: crystalline myristic acid melts at 52 1C, and a thermal transition at 70 1C is assigned to the breaking of hydrogen bounds inside the mixed myristic acid/CTAB complex (being the surfactant film in the ternary system). Water determines the film curvature, hence the structures observed at high temperature, but does not influence the thermal behaviour of the ternary system. Myristic acid is partitioned in two ''species'' that behave independently: pure myristic acid and myristic acid associated with CTAB to form an equimolar complex that plays the role of the surfactant film. We therefore show that myristic acid plays the role of a solvent (oil) and a co-surfactant allowing the fine tuning of the structure of oil and water mixtures. This solvosurfactant behaviour of long chain fatty acid opens the way for new formulations with a complex structure without the addition of any extra compound
Nanoprecipitation of organic compounds with self-assembling properties: specific role of the hydrophobic part ?
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Gold nanoparticle internal structure and symmetry probed by unified small-angle X-Ray scattering and X-Ray diffraction coupled with molecular dynamics analysis
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From Gold nanoparticles to squaneloyl nanomedicines: kinetic studies
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