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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 81, 1994 - Issue 5
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Original Articles

Adhesive-hard-sphere approximation for the structure of square-well fluids: application to colloidal dispersions

K. Shukla Department of Chemical Engineering, University of Houston, Houston, TX, 77204-4792, USA
&
R. Rajagopalan Department of Chemical Engineering, University of Houston, Houston, TX, 77204-4792, USA
Pages 1093-1107 | Received 29 Apr 1993, Accepted 13 Oct 1993, Published online: 26 Oct 2007

Citations (28)

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Read on this site (4)

A.A. Louis. (2011) Extracting short-ranged interactions from structure factors. Molecular Physics 109:23-24, pages 2945-2951.
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D. Pini, A. Parola, J. Colombo & L. Reatto. (2011) An investigation of the SCOZA for narrow square-well potentials and in the sticky limit. Molecular Physics 109:7-10, pages 1343-1361.
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YAOQI ZHOU & MARTIN KARPLUS. (1996) Exact results for the effect of bond flexibility on the structure and the collapse transition of isolated square-well trimers. Molecular Physics 89:6, pages 1707-1717.
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Yaoqi Zhou, CarolK. Hall & George Stell. (1995) Exact results for isolated sticky chains. Molecular Physics 86:6, pages 1485-1492.
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Articles from other publishers (24)

Julio C. Armas-Pérez, Jacqueline Quintana-H, Gustavo A. Chapela, Enrique Velasco & Guillermo Navascués. (2014) Phase diagram of a square-well model in two dimensions. The Journal of Chemical Physics 140:6.
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Shiqi Zhou. (2010) New free energy density functional and application to core-softened fluid. The Journal of Chemical Physics 132:19.
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A. Jamnik. (2008) Simulating asymmetric colloidal mixture with adhesive hard sphere model. The Journal of Chemical Physics 128:23.
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Mathieu Joubert & Martin In. (2008) Tuning Colloidal Interactions Through Coordination Chemistry. ChemPhysChem 9:7, pages 1010-1019.
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M. López de Haro, S.B. Yuste & A. Santos. 2008. Theory and Simulation of Hard-Sphere Fluids and Related Systems. Theory and Simulation of Hard-Sphere Fluids and Related Systems 183 245 .
Andrej Jamnik. (2007) Adsorption of a Binary Mixture of Adhesive Fluids in Planar Pores:  A Monte Carlo Study. The Journal of Physical Chemistry B 111:14, pages 3674-3684.
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A. Jamnik. (2006) Simulation of a binary mixture of adhesive fluids. Chemical Physics Letters 423:1-3, pages 23-29.
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Juan Serrano-Illán, Guillermo Navascués & Enrique Velasco. (2006) Noncompact crystalline solids in the square-well potential. Physical Review E 73:1.
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Shiqi Zhou. (2005) Investigation about suitability of hard core attractive Yukawa potential as a model potential for short-range attractive interactions in colloidal dispersions. Colloids and Surfaces A: Physicochemical and Engineering Aspects 262:1-3, pages 187-190.
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Shiqi Zhou & Hongwei Sun. (2005) Sedimentation Equilibrium of Colloidal Suspensions in a Planar Pore Based on Density Functional Theory and the Hard-Core Attractive Yukawa Model. The Journal of Physical Chemistry B 109:13, pages 6397-6404.
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Zhou Shi-Qi. (2005) A Global Investigation About Hard Core Attractive Yukawa Approximation and Adhesive Hard Sphere Approximation for Structure of Colloidal Dispersion Systems. Communications in Theoretical Physics 43:3, pages 567-576.
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J. Largo, J. R. Solana, S. B. Yuste & A. Santos. (2005) Pair correlation function of short-ranged square-well fluids. The Journal of Chemical Physics 122:8.
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Niharendu Choudhury & Swapan K. Ghosh. (2002) Sedimentation equilibrium of a suspension of adhesive colloidal particles in a planar slit: A density functional approach. The Journal of Chemical Physics 116:1, pages 384-391.
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Shiqi Zhou & Xiaoqi Zhang. (2001) High-Order Perturbative Density Functional Theory for Nonuniform Fluids with an Attractive Tail near Surfaces. Journal of Colloid and Interface Science 242:1, pages 152-157.
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Keshawa P. Shukla. (2000) Phase equilibria and thermodynamic properties of hard core Yukawa fluids of variable range from simulations and an analytical theory. The Journal of Chemical Physics 112:23, pages 10358-10367.
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A. Jamnik. (1998) Suspensions of adhesive colloidal particles in sedimentation equilibrium in a planar pore. The Journal of Chemical Physics 109:24, pages 11085-11093.
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Andrés Santos, Santos Bravo Yuste & Mariano López de Haro. (1998) Radial distribution functions for a multicomponent system of sticky hard spheres. The Journal of Chemical Physics 109:16, pages 6814-6819.
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A. Jamnik. (1998) Sedimentation equilibrium of adhesive spheres in a planar gap. Chemical Physics Letters 292:4-6, pages 481-486.
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S. Amokrane & C. Regnaut. (1997) Surface layers overlap and effective adhesion in reverse micelles: A discussion from the adhesive spheres mixture model. The Journal of Chemical Physics 106:1, pages 376-387.
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A. Jamnik. (1996) Spatial correlations and solvation interaction in a two-component mixture of adhesive fluids. The Journal of Chemical Physics 105:23, pages 10511-10520.
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A. Jamnik. (1995) Sticky spheres in adhesive pores. The Journal of Chemical Physics 102:14, pages 5811-5817.
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K. Shukla & R. Rajagopalan. (1995) Structures and phase transitions in colloidal dispersions from theory and simulation. International Journal of Thermophysics 16:2, pages 327-335.
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K. Shukla & Raj Rajagopalan. (1994) Influence of the range of attractive forces on vapor/liquid phase coexistence. The Journal of Chemical Physics 101:12, pages 11077-11078.
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K. Shukla & R. Rajagopalan. (1994) Structure of colloidal dispersions with an attractive primary minimum and far-field repulsion in the pair-potential: Adhesive-hard-sphere and random-phase approximations. Colloids and Surfaces A: Physicochemical and Engineering Aspects 92:3, pages 197-207.
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