In situ observation of self-assembly of sugars and surfactants from nanometres to microns
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2017
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taverne
Abstract
The hierarchical self-assembly of sugar and surfactant molecules into hollow tubular microstructures was characterized in situ with high resolution small-angle X-ray scattering spanning more than three orders of magnitude of spatial scales. Scattering profiles reveal that aqueous host-guest inclusion complexes self-assemble into multiple equally spaced curved bilayers forming a collection of concentric hollow cylinders. Scattering data can be described by a simple theoretical model of the microtubes. The interlamellar distance was found to be surprisingly large. Moreover, we report that the multi-walled structure of the microtubes swells as the concentration or the temperature is varied.
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Taverne, General Chemistry, Condensed Matter Physics
Citation
Ouhajji, S, Landman, J, Prévost, S, Jiang, L, Philipse, A P & Petukhov, A V 2017, 'In situ observation of self-assembly of sugars and surfactants from nanometres to microns', Soft Matter, vol. 13, no. 13, pp. 2421-2425. https://doi.org/10.1039/c7sm00109f