Denton Ar scite author profile

Interparticle interactions in charge-stabilized colloidal suspensions, of arbitrary salt concentration, are described at the level of effective interactions in an equivalent one-component system. Integrating out from the partition function the degrees of freedom of all microions, and assuming linear response to the macroion charges, general expressions are obtained for both an effective electrostatic pair interaction and an associated microion volume energy. For macroions with hard-sphere cores, the effective interaction is of the DLVO screened-Coulomb form, but with a modified screening constant that incorporates excluded volume effects. The volume energy -a natural consequence of the one-component reduction -contributes to the total free energy and can significantly influence thermodynamic properties in the limit of low-salt concentration. As illustrations, the osmotic pressure and bulk modulus are computed and compared with recent experimental measurements for deionized suspensions. For macroions of sufficient charge and concentration, it is shown that the counterions can act to soften or destabilize colloidal crystals.

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Nonlinear screening and effective electrostatic interactions in charge-stabilized colloidal suspensions

2004

Phys. Rev. E

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A nonlinear response theory is developed and applied to electrostatic interactions between spherical macroions, screened by surrounding microions, in charge-stabilized colloidal suspensions. The theory describes leading-order nonlinear response of the microions (counterions, salt ions) to the electrostatic potential of the macroions and predicts microion-induced effective many-body interactions between macroions. A linear response approximation [A.R. Denton, Phys. Rev. E 62, 3855 (2000)] yields an effective pair potential of screened-Coulomb (Yukawa) form, as well as a one-body volume energy, which contributes to the free energy. Nonlinear response generates effective many-body interactions and essential corrections to both the effective pair potential and the volume energy. By adopting a random-phase approximation (RPA) for the response functions, and thus neglecting microion correlations, practical expressions are derived for the effective pair and triplet potentials and for the volume energy. Nonlinear screening is found to weaken repulsive pair interactions, induce attractive triplet interactions, and modify the volume energy. Numerical results for monovalent microions are in good agreement with available ab initio simulation data and demonstrate that nonlinear effects grow with increasing macroion charge and concentration and with decreasing salt concentration. In the dilute limit of zero macroion concentration, leading-order nonlinear corrections vanish. Finally, it is shown that nonlinear response theory, when combined with the RPA, is formally equivalent to the mean-field Poisson-Boltzmann theory and that the linear response approximation corresponds, within integral-equation theory, to a linearized hypernetted-chain closure.

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Reply to ‘‘Comment on ‘Modified weighted-density-functional theory of nonuniform classical liquids’ ’’

1990

Phys. Rev. A

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Using an identity due to Percus [J. K. Percus, in The Equilibrium Theory of Classical Fluids, edited by H. L. Frisch and J. L. Lebowitz (Benjamin, New York, 1964)] implying a connection between the theories of nonuniform and uniform liquids, Kim and Jones [Soon-Chul Kim and Gerald L. Jones, preceding paper, Phys. Rev. A 41, 2222 (1990)] demonstrate that the modified weighteddensity approximation for nonuniform liquids corresponds to the hypernetted-chain (HNC) approximation for uniform liquids. We point out that the Ramakrishnan-Yussouff density-functional theoryin its simplest formulationalso implies the HNC approximation, a feature of the theory previously observed

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Denton Ar

Effective interactions and volume energies in charged colloids: Linear response theory

Nonlinear screening and effective electrostatic interactions in charge-stabilized colloidal suspensions

Reply to ‘‘Comment on ‘Modified weighted-density-functional theory of nonuniform classical liquids’ ’’

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