Abstract

A model is presented to explain the formation and morphologies of surfactant-silicate mesostructures. Three processes are identified: multidentate binding of silicate oligomers to the cationic surfactant, preferential silicate polymerization in the interface region, and charge density matching between the surfactant and the silicate. The model explains present experimental data, including the transformation between lamellar and hexagonal mesophases, and provides a guide for predicting conditions that favor the formation of lamellar, hexagonal, or cubic mesostructures. Model Q 230 proposed by Mariani and his co-workers satisfactorily fits the x-ray data collected on the cubic mesostructure material. This model suggests that the silicate polymer forms a unique infinite silicate sheet sitting on the gyroid minimal surface and separating the surfactant molecules into two disconnected volumes.

Keywords

SilicateGyroidCationic polymerizationLamellar structurePulmonary surfactantMaterials sciencePolymerizationChemical engineeringPolymerCrystallographyCopolymerPolymer chemistryChemistryComposite material

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Publication Info

Year
1993
Type
article
Volume
261
Issue
5126
Pages
1299-1303
Citations
1531
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Closed

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Alain Monnier, Ferdi Schüth, Quan Huo et al. (1993). Cooperative Formation of Inorganic-Organic Interfaces in the Synthesis of Silicate Mesostructures. Science , 261 (5126) , 1299-1303. https://doi.org/10.1126/science.261.5126.1299

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DOI
10.1126/science.261.5126.1299