Nanoparticle Size Controls Aggregation in Lamellar Nonionic Surfactant Mesophase
2013
Venugopal, Edakkal | Aswal, Vinod K. | Kumaraswamy, Guruswamy
We show that the size of silica nanoparticles influences the nature of their aggregation in an aqueous solution of a relatively hydrophobic nonionic surfactant, C₁₂E₄. We present results for dispersions of silica nanoparticles with sizes varying from 8 to 26 nm, in a 75: 25 C₁₂E₄/water system, that forms a lamellar phase, Lα, at room temperature. Addition of silica particles does not affect the formation of the Lα phase. Nanoparticles smaller than about 11 nm aggregate irreversibly in the C₁₂E₄/water system. However, nanoparticles larger than about 15 nm aggregate in the Lα phase, but are dispersed at temperatures above the Lα order–disorder temperature. Thus, in contrast to the smaller particles, aggregation of silica nanoparticles larger than about 15 nm is reversible with temperature. We use small-angle neutron scattering (SANS) to demonstrate that these results can be explained by the size-dependent wrapping of nanoparticles by surfactant bilayers. Larger particles, above 15 nm in size, are sterically stabilized by the formation of an adsorbed surfactant bilayer. The cost of bilayer bending inhibits adsorption onto the highly curved surfaces of smaller particles, and these “bare” particles aggregate irreversibly.
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