L. Mederos scite author profile

Using a version of density-functional theory which combines Onsager approximation and fundamental-measure theory for spatially nonuniform phases, we have studied the phase diagram of freely rotating hard rectangles and hard discorectangles. We find profound differences in the phase behavior of these models, which can be attributed to their different packing properties. Interestingly, bimodal orientational distribution functions are found in the nematic phase of hard rectangles, which cause a certain degree of biaxial order, albeit metastable with respect to spatially ordered phases. This feature is absent in discorectangles, which always show unimodal behavior. This result may be relevant in the light of recent experimental results which have confirmed the existence of biaxial phases. We expect that some perturbation of the particle shapes (either a certain degree of polydispersity or even bimodal dispersity in the aspect ratios) may actually destabilize spatially ordered phases thereby stabilizing the biaxial phase.

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A model for membranes, vesicles and micelles in amphiphilic systems

Somoza¹,

Chacón²,

Mederos³

et al. 1995

J. Phys.: Condens. Matter

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We present a microscopic model for the aggregates of amphiphilic molecules, based on a simple density functional approximation for the free energy. The different molecular aggregates are described as self-structured density distributions at the relative minima of the grand potential energy. We search for these structures with planar and spherical geometries, and obtain the phase diagram for bilayer membranes, and the curvature energies for vesicles and different types of micelles. The study of a global phase diagram, to get the density of micelles and isolated amphiphilic molecules, at equilibrium with free membranes, requires me link between two description levels of micelles: as self-structured density distributions, or as molecular clusters in the solution of amphiphilic molecules in water. This is done with the help of a simple harmonic model which provides an appropriate choice of the configurational unit cell for micelles.

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Orientational ordering in hard rectangles: The role of three-body correlations

Martı́nez-Ratón

Velasco

Mederos

2006

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We investigate the effect of three-body correlations on the phase behavior of hard rectangle two-dimensional fluids. The third virial coefficient B3 is incorporated via an equation of state that recovers scaled particle theory for parallel hard rectangles. This coefficient, a functional of the orientational distribution function, is calculated by Monte Carlo integration, using an accurate parametrized distribution function, for various particle aspect ratios in the range of 1-25. A bifurcation analysis of the free energy calculated from the obtained equation of state is applied to find the isotropic (I)-uniaxial nematic (N(u)) and isotropic-tetratic nematic (N(t)) spinodals and to study the order of these phase transitions. We find that the relative stability of the N(t) phase with respect to the isotropic phase is enhanced by the introduction of B3. Finally, we have calculated the complete phase diagram using a variational procedure and compared the results with those obtained from scaled particle theory and with Monte Carlo simulations carried out for hard rectangles with various aspect ratios. The predictions of our proposed equation of state as regards the transition densities between the isotropic and orientationally ordered phases for small aspect ratios are in fair agreement with simulations. Also, the critical aspect ratio below which the N(t) phase becomes stable is predicted to increase due to three-body correlations, although the corresponding value is underestimated with respect to simulation.

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L. Mederos

Effect of particle geometry on phase transitions in two-dimensional liquid crystals

A model for membranes, vesicles and micelles in amphiphilic systems

Orientational ordering in hard rectangles: The role of three-body correlations

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