Self-consistent Ornstein-Zernike approximation (SCOZA) and exact second virial coefficients and their relationship with critical temperature for colloidal or protein suspensions with short-ranged attractive interactions
Articolo
Data di Pubblicazione:
2013
Citazione:
Self-consistent Ornstein-Zernike approximation (SCOZA) and exact second virial coefficients and their relationship with critical temperature for colloidal or protein suspensions with short-ranged attractive interactions / D. Gazzillo, D. Pini. - In: THE JOURNAL OF CHEMICAL PHYSICS. - ISSN 0021-9606. - 139:16(2013 Oct 22), pp. 164501.1-164501.14.
Abstract:
We focus on the second virial coefficient B2 of fluids with molecules interacting through hard-sphere
potentials plus very short-ranged attractions, namely, with a range of attraction smaller than half
hard-sphere diameter. This kind of interactions is found in colloidal or protein suspensions, while the interest in B2 stems from the relation between this quantity and some other properties of these fluid systems. Since the SCOZA (Self-Consistent Ornstein-Zernike Approximation) integral equation is
known to yield accurate thermodynamic and structural predictions even near phase transitions and in the critical region, we investigate B2_SCOZA and compare it with B2_exact, for some typical potential models. The aim of the paper is however twofold. First, by expanding in powers of density the condition of thermodynamic consistency included in the SCOZA integral equation, a general analytic expression for B2_SCOZA is derived. For a given potential model, a comparison between B2_SCOZA and B2_exact may help to estimate the regimes where the SCOZA closure is reliable. Second, following the Vliegenthart-Lekkerkerker (VL) and Noro-Frenkel suggestions, the relationship between the critical
B2 and the critical temperature Tc is discussed in detail for two prototype models: the square-well (SW) potential and the hard-sphere attractive Yukawa (HSY) one. The known simulation data for
the SW model are revisited, while for the HSY model new SCOZA results have been generated. Although B2_HSY at the critical temperature is found to be a slowly varying function of the range of
Yukawa attraction Delta_Y over a wide interval of Delta_Y, it turns out to diverge as Delta_Y vanishes. For fluids
with very short-ranged attractions, such a behavior contrasts with the VL assumption that B2 at the critical temperature should be nearly independent of the range of attraction. A very simple analytic representation is found for the available Monte Carlo data for Tc_HSY and B2_HSY as functions of the range of attraction, for Delta_Y smaller than half hard-sphere diameter.
Tipologia IRIS:
01 - Articolo su periodico
Keywords:
second virial coefficient; short-range attraction; critical temperature; self-consistent Ornstein-Zernike approximation
Elenco autori:
D. Gazzillo, D. Pini
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