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Wang Y, Holmes MC, Leaver MS, et al. Mesh phases in a ternary nonionic surfactant, oil, and water system. Langmuir. 2006;22(26):10951-7doi: 10.1021/la060840c.
Wang, Y., Holmes, M. C., Leaver, M. S., & Fogden, A. (2006). Mesh phases in a ternary nonionic surfactant, oil, and water system. Langmuir : the ACS journal of surfaces and colloids, 22(26), 10951-7. https://doi.org/10.1021/la060840c
Wang, Ying, et al. "Mesh phases in a ternary nonionic surfactant, oil, and water system." Langmuir : the ACS journal of surfaces and colloids vol. 22,26 (2006): 10951-7. doi: https://doi.org/10.1021/la060840c
Wang Y, Holmes MC, Leaver MS, Fogden A. Mesh phases in a ternary nonionic surfactant, oil, and water system. Langmuir. 2006 Dec 19;22(26):10951-7. doi: 10.1021/la060840c. PMID: 17154570.
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Langmuir. 2006 Dec 19;22(26):10951-7. doi: 10.1021/la060840c.

Mesh phases in a ternary nonionic surfactant, oil, and water system.

Langmuir : the ACS journal of surfaces and colloids

Ying Wang, Michael C Holmes, Marc S Leaver, Andrew Fogden

Affiliations

  1. Centre for Materials Science, Department of Physics, Astronomy and Mathematics, University of Central Lancashire, Preston PR1 2HE, Lancashire, England.

PMID: 17154570 DOI: 10.1021/la060840c

Abstract

The binary system of hexaethylene glycol n-hexadecyl ether (C16EO6) and water (2H2O) has a complex, temperature-dependent lyotropic phase sequence, in the concentration region of 48-62 wt %. On cooling it shows the sequence lamellar phase, L(alpha), random mesh phase Mh1(0), rhombohedral mesh phase, Mh1(R(-)3m), bicontinuous cubic phase, V1(Ia(-)3d), and a two-phase hexagonal region, H1+Lbeta. On heating from the latter two-phase region the phase sequence is V1(Ia(-)3d), ,Mh1(0), and Lalpha. Polarizing optical microscopy, 2H nuclear magnetic resonance, and small-angle X-ray scattering have been used to study the stability of these phases, their sequence, and their physical parameters with the addition of the oils, 1-hexene, decane, and octadecane. The oils are located within the alkyl chain regions of the mesophase structures. Depending on whether the added oil is "penetrating" or "swelling", it may reside in the region between the C16 alkyl chains of the surfactant or at the center of the bilayer and affect phase stability. Oils affect both the volume of the alkyl chain region (at fixed surfactant water mole ratio) and the rigidity of the interfacial region. Both effects can influence the phase structures and their ranges of stability. Adding different types of oil to the mesh phases gives an opportunity to understand the factors that are important in their formation. The transition from the Mh1(R(-)3m) phase to Mh1(0) phase is triggered by the hydrocarbon region swelling to a critical volume fraction of 0.32, a surfactant rod radius of approximately 1.75 nm, and a critical water layer thickness of approximately 2.5 nm. The latter is most likely responsible for a weakening of the interlayer headgroup overlap interaction and the loss of correlation between the layers. The lamellar phase becomes the only stable phase at high oil content.

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