Structural Features of Micelles of Zwitterionic Dodecyl-phosphocholine (C12PC) Surfactants Studied by Small-Angle Neutron Scattering

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• 作者：Elias Pambou ; John Crewe ; Mohammed Yaseen ; Faheem N. Padia ; Sarah Rogers ; Dong Wang ; Hai Xu ; Jian R. Lu
• 刊名：Langmuir
• 出版年：2015
• 出版时间：September 15, 2015
• 年：2015
• 卷：31
• 期：36
• 页码：9781-9789
• 全文大小：430K
• ISSN：1520-5827

文摘

Small-angle neutron scattering (SANS) was used to investigate the size and shape of zwitterionic dodecyl phosphocholine (C₁₂PC) micelles formed at various concentrations above its critical micelle concentration (CMC = 0.91 mM). The predominant spherical shape of micelles is revealed by SANS while the average micellar size was found to be broadly consistent with the hydrodynamic diameters determined by dynamic light scattering (DLS). Cryogenic tunneling electron microscopy (cryo-TEM) shows a uniform distribution of structures, proposing micelle monodispersity (langmuir.5b02077/suppl_file/la5b02077_si_001.pdf" class="ext-link">Supporting Information). H/D substitution was utilized to selectively label the chain, head, or entire surfactant so that structural distributions within the micellar assembly could be investigated using fully protonated, head-deuterated, and tail-deuterated PC surfactants in D₂O and fully deuterated surfactants in H₂O. Using the analysis software we have developed, the four C₁₂PC contrasts at a given concentration were simultaneously analyzed using various core鈥搒hell models consisting of a hydrophobic core and a shell representing hydrated polar headgroups. Results show that at 10 mM, C₁₂PC micelles can be well represented by a spherical core鈥搒hell model with a core radius and shell thicknesses of 16.9 卤 0.5 and 10.2 卤 2.0 脜 (total radius 27.1 卤 2.0 脜), respectively, with a surfactant aggregation number of 57 卤 5. As the concentration was increased, the SANS data revealed an increase in core鈥搒hell mixing, characterized by the emergence of an intermediate mixing region at the spherical core鈥搒hell interface. C₁₂PC micelles at 100 mM were found to have a core radius and shell thicknesses of 19.6 卤 0.5 and 7.8 卤 2.0 脜, with an intermediate mixing region of 3.0 卤 0.5 脜. Further reduction in the shell thickness with concentration was also observed, coupled with an increased mixing of the core and shell regions and a reduction in miceller hydration, suggesting that concentration has a significant influence on surfactant packing and aggregation within micelles.