Fluids inside a pore—an integral-equation approach

Abstract: Integral equations for density profiles of fluids inside a slit pore and a spherical pore are derived using an Ornstein-Zernike system of equations. For a hard-sphere fluid we specialize to a Percus-Yevick (PY) closure and a hypernetted-chain (HNC) closure, and also consider the BBGKY hierarchy with a kind of superposition-approximation (SA) closure. The bulk correlation needed in the OZ system of equations is obtained from the PY approximation. These approximations, which will be referred to as the PY/PY and … Show more

“…The ionic correlations were treated altogether at the level of the Mean Spherical Approximation (MSA). It is, however, well known that in situations in which electrolyte is bounded by narrow pores -where violation of electroneutrality is expected to take place -size correlations between the confined ions may strongly influence the structure of the EDLs [63][64][65][66] . Furthermore, electrostatic correlations in electrolytes containing multivalent ions usually require use of more accurate approximations.…”

Charge neutrality breakdown in confined aqueous electrolytes: Theory and simulation

“…The ionic correlations were treated altogether at the level of the Mean Spherical Approximation (MSA). It is, however, well known that in situations in which electrolyte is bounded by narrow pores -where violation of electroneutrality is expected to take place -size correlations between the confined ions may strongly influence the structure of the EDLs [63][64][65][66] . Furthermore, electrostatic correlations in electrolytes containing multivalent ions usually require use of more accurate approximations.…”

Charge neutrality breakdown in confined aqueous electrolytes: Theory and simulation

“…Substituting Eqs. [8], [10], and [11] into Eq. [9], one finds y 21 (r 1 , r 2 ) = 1 + ρ {g 11 (r 1 , r 3 ) − y 11 (r 1 , r 3 )}h 21 (r 2 , r 3 ) dr 3 .…”

“…[2] and [6], one must find an appropriate expression for g 0 21 . To do this, we use the Ornstein-Zernike equation for a two-component system, given by (8)(9)(10) …”

The Effect of Solute Concentration on Equilibrium Partitioning in Polymeric Gels

“…The problem of determining the density profiles or distribution functions has been tackled by simulation technique [1]- [6] or theoretically by employing the solution of the modified Orstein-Zernike equation [7]- [8] or by applying the density functional theory [9]- [11]. Solution of both types of theoretical expressions have been obtained by different numerical methods; some input data (for the corresponding homogeneous systems) are used.…”

Distribution functions of a heteronuclear hard dumbbell at a hard wall. Pure fluid and mixtures with hard spheres