S. Amokrane scite author profile

The recently proposed method for modulating through an external field the composition of a binary fluid mixture adsorbed in a slit pore is discussed. The population inversion near the bulk (demixing) instability is first analyzed in the case of a symmetric mixture of nonadditive hard spheres, without field. It is next investigated for a mixture comprising dipolar particles subject to an external field. The influence of several factors on the adsorption curves including bulk composition, pore width, field direction, polarizability versus permanent dipoles, and temperature on this field induced population inversion is shown by Monte Carlo simulation.

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A model for the metal-solvent coupling at a charged interface: Effect on the differential capacitance

Amokrane

Russier

Badiali

1989

Surface Science

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Phase diagram of highly asymmetric binary mixtures: A study of the role of attractive forces from the effective one-component approach

2000

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The phase diagram of an asymmetric solute-solvent mixture is investigated at the level of the effective one-component fluid. The solvent is taken into account by computing the potential of mean force between solute particles at infinite dilution for different models of solvent-solvent and solute-solvent short range interactions. Fluid-fluid and fluid-solid coexistence lines are determined from the free energy in the reference hypernetted chain theory for the fluid branch and from a variational perturbation theory for the solid one. The phase boundaries so determined compare well with recently published Monte Carlo data for mixtures of pure hard spheres. The influence of solute-solvent and solvent-solvent short range attractive forces is then investigated. When compared with pure hard core interactions, these forces are found to produce dramatic changes in the phase diagram, especially on the solvent packing fractions at which a dense fluid of solutes can be stable and on the separation of the fluid-fluid and fluid-solid coexistence lines. Finally, the connection of these results with the behavior of some colloidal suspensions is emphasized.

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S. Amokrane

Influence of attractive forces on the solvent mediated potential of mean force between colloidal particles

A new analysis of the differential capacitance of an ideally polarized electrode

Binary mixture adsorbed in a slit pore: Field-induced population inversion near the bulk instability

A model for the metal-solvent coupling at a charged interface: Effect on the differential capacitance

Phase diagram of highly asymmetric binary mixtures: A study of the role of attractive forces from the effective one-component approach

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