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    Contact Interaction of Double-Chained Surfactant Layers on Silica: Bilayer Rupture and Capillary Bridge Formation

    Year: 2013

    Journal: Langmuir, 2013, 29 (47), pp 14473–14481, 20140104

    Authors: Etienne Barthel * 1, Renaud Roquigny 1, Laurence Serreau 1, Renaud Denoyel 2, Marianne Clerc-Imperor 3, and Carlos Drummond 4

    Last authors: Carlos Drummond

    Organizations: 1 Surface du Verre et Interfaces, CNRS/Saint-Gobain, BP 135, 93303 Aubervilliers Cedex, France 2 Laboratoire Chimie Provence, Universités d’Aix-Marseille I,II et III - CNRS UMR 6264, Campus de Saint Jérôme Avenue Escadrille-Normandie-Niemen, F-13397 Marseille Cedex 20, France 3 Laboratoire de Physique des Solides, Université Paris Sud CNRS UMR 8502 F 91405 Orsay Cedex, France 4 Centre de Recherche Paul Pascal, CNRS, Université Bordeaux 1, Avenue Schweitzer, 33600 Pessac, France

    Country: France

    The contact between two layers of double-chained C18 surfactants adsorbed on silica has been investigated. Using a custom-made surface forces apparatus with high stiffness, we have studied the process of (1) compression and collapse of the layers and (2) surface separation after layer collapse. A continuum mechanics model accounts for the compression and collapse of the surfactant layers. The layer compressibility and molecular energy of rupture can be inferred directly. When the surfaces are rinsed in deionized water, an intriguing structural force is observed: the resulting attractive interaction induces the diffusion of surfactant to the contact area, with the gradual buildup of a capillary bridge of the pure smectic phase of the surfactant. Models are proposed to analyze the force profile.