Lamellar phases confined in quasicylindrical pores: lattice model results.

M Tasinkevych,M M Telo Da Gama,A Ciach

doi:10.1103/physreve.65.031707

Lamellar phases confined in quasicylindrical pores: lattice model results.

M Tasinkevych, M M Telo Da Gama + Show 1 more

https://doi.org/10.1103/physreve.65.031707

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Journal: Physical review. E, Statistical, nonlinear, and soft matter physics	Publication Date: Feb 12, 2002
Citations: 1

Affiliation: University of Lisbon, Polish Academy of Sciences, Institute of Physical Chemistry

#Effects Of Pore Geometry #One-point Distribution Functions #Neutral Walls #Rectangular Pores #Mean Field Approximation #Lamellar Phases #Surface Fields #Lattice Model #Two-dimensional Lattice Model #Phase Boundaries

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A two-dimensional (2D) vector lattice model of microemulsions is applied to study the structure of lamellar phases confined in long rectangular pores. One-point distribution functions are calculated within mean field approximation. The effects of pore geometry and surface fields are considered. A 2D analog of an onion phase is favored by a pore with strongly hydrophilic walls. For neutral walls, far from the phase boundaries, the lamellar phase is stable inside the pore. By contrast, close to the lamellar-tubular phase boundary a pore with neutral walls favors a 2D tubular phase. This is the analog of capillary condensation. In all cases the excess pressure is calculated as a function of the pore geometry.

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Lamellar phases confined in quasicylindrical pores: lattice model results.