2002
DOI: 10.1063/1.1497156
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Gaussian ellipsoid model for confined polymer systems

Abstract: Polymer systems in slab geometries are studied on the basis of the recently presented Gaussian Ellipsoid Model [J. Chem. Phys. 114, 7655 (2001)].The potential of the confining walls has an exponential shape. For homogeneous systems in thermodynamic equilibrium we discuss density, orientation and deformation profiles of the polymers close to the walls. For strongly segregated mixtures of polymer components A and B equilibrium profiles are studied near a planar interface separating A and B rich regions. Spinodal… Show more

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Cited by 8 publications
(11 citation statements)
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“…If details of the conformations are not of interest, the polymers can be replaced by single, soft particles with ellipsoidal shape. The idea was then pursued mainly by Eurich, Maass, and coworkers [217][218][219], who also suggested to extend the model to diblock copolymers by modeling them as dimers to account for their dumbbell shape [219]. Sambrisky and Guenza have recently worked out a microscopic foundation for coarse-graining diblock copolymers into such dumbbells, which is based on liquid-state integral equations [220].…”
Section: Ellipsoid Modelmentioning
confidence: 99%
“…If details of the conformations are not of interest, the polymers can be replaced by single, soft particles with ellipsoidal shape. The idea was then pursued mainly by Eurich, Maass, and coworkers [217][218][219], who also suggested to extend the model to diblock copolymers by modeling them as dimers to account for their dumbbell shape [219]. Sambrisky and Guenza have recently worked out a microscopic foundation for coarse-graining diblock copolymers into such dumbbells, which is based on liquid-state integral equations [220].…”
Section: Ellipsoid Modelmentioning
confidence: 99%
“…As a test of (9) we compare with Monte Carlo simulations the conditional probability W (r|R A ) obtained from ( 9) by integrating over the orientations of r with r = | r| fixed, and by averaging over R B . Regarding its dependence on R A , we took averages over each of eight successive intervals on the R A axis chosen such that they have equal weights 1/8 with respect to the distribution (7). Results are shown in Fig.…”
Section: Gaussian Disphere Model For Block Copolymersmentioning
confidence: 99%
“…We start with planar walls parallel to the (x, y)-plane, with a potential for A and B monomers as in Ref. 7 ,…”
Section: Homogeneous Wallsmentioning
confidence: 99%
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