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Article Abstract
The study of the self-assembly of surfactants in aqueous solutions, though a traditional field, remains fascinating and full of novelty. In this article, the anionic perfluorodecanoic acid surfactant (PFA) is separately complexed with three hydroxyalkylamines (monoethanolamine (MEA), diethylamine (DEA), and triethanolamine (TEA)) in aqueous solutions. The transformation of aggregate morphologies from spherical unilamellar to nanotubes and then to spherical bilamellar is observed at room temperature, which is confirmed by cryo-transmission electron microscopy (cryo-TEM). Small-angle X-ray scattering (SAXS) measurement is used to determine the wall thickness of the three types of aggregates. The main driving force behind the formation of spherical unilamellar vesicles is the hydrogen bonding between the ionized CFCOO and the neutral CFCOOH, as well as the electrostatic interaction between the HO-CH-NH-OOCFC ion pair. As the number of -CHCHOH groups increases, the synergistic interaction between steric hindrance, hydrogen bonding, and electrostatic interactions induces a transformation in aggregate morphologies from spherical unilamellar vesicles to nanotubes and then to spherical bilamellar vesicles. Additionally, rheological results indicate that the viscoelastic moduli and viscosities of the MEA/PFA/HO, DEA/PFA/HO, and TEA/PFA/HO systems are affected by steric hindrance.
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