Self-Assembling Behavior of Polyglyceryl-Modified Silicone Surfactant in Aqueous Solution |
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Authors: | Chunbo Feng Li Chen Zhiping Du |
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Institution: | 1. School of Chemistry and Chemical Engineering, South China University of Technology, Guangzhou, Guangdong, PR China;2. China Research Institute of Daily Chemical Industry, Taiyuan Shanxi, China |
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Abstract: | We report interesting self-assembly behavior of a polyglyceryl-modified silicone surfactant in the aqueous solution; the sample has been characterized through measurements of surface tension, transmission electron microscopy (TEM), dynamic light scattering (DLS), and small-angle x-ray scattering (SAXS). Aqueous solutions of this surfactant had a low critical aggregation concentration (CAC) and surface tension (21.5 mN · m?1), substantially lower than those reported for polyether-modified silicone surfactants with a similar molecular architecture. DLS and TEM revealed self-assembled spherical micelles with a narrow size distribution. At higher concentrations (10 wt%), linear packing of micelles was observed, while the micelle size distribution remained similar (50–90 nm). SAXS data could be fitted through the use of a core–shell model and implied that the core radius remained roughly 4.3–6.0 nm for all solutions of the surfactant analyzed. The origin of its curious aggregates behavior is attributed to hydrogen bonding, steric effects, and the directionality of bond angle from the polyglyceryl block of this novel class of silicone surfactant. This type of surfactant coupling lipophilic segments assembles the cores of the micelles in water which may find positive factors for potential applications such as microreaction compartmentalization. |
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Keywords: | Core–shell model hydrogen bonding linear packing polyglyceryl-modified silicone surfactant |
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