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Surface phenomena for lamellar phases in microemulsions

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Published 15 February 1999 1999 EDP Sciences
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Article information
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Institute of Physical Chemistry, Polish Academy of Sciences - 01-224 Warszawa, Poland

Dates

Received 3 July 1998
In final form 10 December 1998
Accepted 10 December 1998

Citation

A. Ciach et al 1999 EPL 45 495

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DOI

https://doi.org/10.1209/epl/i1999-00194-y

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0295-5075/45/4/495

Abstract

Surface phenomena in fluids exhibiting structure on the nanoscale (microemulsions, copolymers etc.) are studied. We argue that for such systems the Landau-Ginzburg functional of suitably chosen order parameter should on the nanoscale have the same form, as the Landau-Ginzburg density-functional for simple fluids on the microscale. We define such order parameter for lamellar ordering by averaging the lamellar structure given by density profiles over a period of the density oscillations. The resulting Landau-Ginzburg functional leads to surface-induced order or disorder and to the associated wetting phenomena. We verify our hypothesis by explicit mean-field calculations in a lattice model of microemulsions in the presence of a surface. Perfect agreement is found. Our results also agree with recent experiments.

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