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Salt-Induced Linker Dehydration Modulates Micellar Structure in Ether-Linked Sulfate Surfactants.

Ashley P WilliamsJonathan M FaberCarl RecseiLiliana de CampoTamim A DarwishKellie L TuckRaymond R DagastineRico F Tabor
Published in: The journal of physical chemistry. B (2024)
Ether-linked surfactants are widely used in formulations such as liquid soaps, but despite their ubiquity, it is unclear how n -ethylene glycol linkers in surfactants, such as sodium lauryl n -(ethylene glycol) sulfate (SLEnS), influence micellar packing in the presence of NaCl. In the present work, we probe the structure and hydration of ether linkers in micelles comprising monodisperse SLEnS surfactants using contrast-variation small-angle neutron scattering (CV-SANS) and small-angle X-ray scattering (SAXS). Using SAXS, changes in micellar structure were observed for SLEnS ( n = 1, 2, or 3) arising from the extent of ethoxylation. Scattering profiles indicated a clear transition from elongated cylindrical micelles to shorter ellipsoidal micelles with increasing ethoxylation. With CV-SANS, micellar structure and linker geometries of SLE3S were able to be resolved, indicating that a change in micellar architecture is modulated by dehydration of the tri(ethylene glycol) linker, offering new insights into the role of water and ions in the self-assembly of this key class of surfactants.
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