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Molecular Physics
An International Journal at the Interface Between Chemistry and Physics
Volume 52, 1984 - Issue 4
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Original Articles

An effective pair potential for dipolar fluids

The coexistence curve

C.E. Woodward Department of Theoretical Chemistry, University of Sydney, N.S.W., 2006, Australia
&
Sture Nordholm Department of Theoretical Chemistry, University of Sydney, N.S.W., 2006, Australia
Pages 973-986 | Received 20 Jul 1982, Accepted 23 Jan 1984, Published online: 22 Aug 2006

Citations (35)

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Małgorzata Borówko, Wojciech Rżysko, Stefan Sokołowski & Tomasz Staszewski. (2017) Integral equations theory for two-dimensional systems involving nanoparticles. Molecular Physics 115:9-12, pages 1065-1073.
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J.M. Tavares & P.I.C. Teixeira. (2011) Patching up dipoles: can dipolar particles be viewed as patchy colloids?. Molecular Physics 109:7-10, pages 1077-1085.
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Marianela Martín-Betancourt, José Manuel Romero-Enrique & Luis F. Rull. (2009) Finite-size scaling study of the liquid–vapour critical point of dipolar square-well fluids. Molecular Physics 107:4-6, pages 563-570.
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M. Kasch, X.S. Chen & F. Forstmann. (1992) The calculation of correlation functions in fluids by a weighted density concept. Molecular Physics 75:2, pages 415-426.
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JohnM. Mercer. (1990) Effective isotropic dipole-dipole pair potential. Molecular Physics 69:4, pages 625-638.
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C.E. Woodward & Sture Nordholm. (1987) Condensation in thin charged slits of a Stockmayer model for hydrogen chloride. Molecular Physics 60:2, pages 441-451.
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C.E. Woodward & Sture Nordholm. (1987) A density functional theory for dipolar hard spheres at charged solid-liquid interfaces. Molecular Physics 60:2, pages 415-439.
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CliffordE. Woodward & Sture Nordholm. (1986) Density functional theory of dipolar fluids. Molecular Physics 59:6, pages 1177-1200.
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C.E. Woodward & Sture Nordholm. (1985) A theoretical estimation of orientational quantum effects in polar fluids. Molecular Physics 55:4, pages 827-852.
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Articles from other publishers (26)

. 2019. Generalized Van der Waals Theory of Molecular Fluids in Bulk and At Surfaces. Generalized Van der Waals Theory of Molecular Fluids in Bulk and At Surfaces xix xxiii .
Julien O. Sindt & Philip J. Camp. (2015) Simulations of dipolar fluids using effective many-body isotropic interactions. The Journal of Chemical Physics 143:2.
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P I C Teixeira. (2013) Effective isotropic potential for dipolar hard spheres. Journal of Physics: Condensed Matter 25:19, pages 195102.
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Adrián Rocha-Ichante, Fernando del Río & Edgar Ávalos. (2010) Equation of state and liquid-vapor equilibrium of polarizable Stockmayer fluids. The Journal of Chemical Physics 133:22.
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B Huke & M Lücke. (2004) Magnetic properties of colloidal suspensions of interacting magnetic particles. Reports on Progress in Physics 67:10, pages 1731-1768.
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G. A. van Ewijk & G. J. Vroege. (2001) Phase Behavior of Magnetic Colloid−Polymer Mixtures:  1. Mean Field Calculations. Langmuir 18:2, pages 377-381.
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P I C Teixeira, J M Tavares & M M Telo da Gama. (2000) The effect of dipolar forces on the structure and thermodynamics of classical fluids. Journal of Physics: Condensed Matter 12:33, pages R411-R434.
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J. M. Taveres, M. M. Telo da Gama & M. A. Osipov. (1998) Erratum: Criticality of dipolar fluids: Liquid-vapor condensation versus phase separation in systems of living polymers [Phys. Rev. E 56 , 6252 (1997)] . Physical Review E 57:6, pages 7367-7371.
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P. Teixeira, M. Osipov & M. Telo da Gama. (1998) Phase diagrams of aligned dipolar hard rods. Physical Review E 57:2, pages 1752-1760.
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Shabira Abbas, Peter Ahlström & Sture Nordholm. (1998) Estimation of the Surface Tension of Polar FluidsLong-Range Contributions. Langmuir 14:2, pages 396-406.
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J. M. Tavares, M. M. Telo da Gama & M. A. Osipov. (1997) Criticality of dipolar fluids: Liquid-vapor condensation versus phase separation in systems of living polymers. Physical Review E 56:6, pages R6252-R6255.
Crossref
S. J. Miklavcic. (1997) Effective dipole potentials after angle averaging. Physical Review E 56:1, pages 1142-1147.
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M A Osipov, P I C Teixeira & M M Telo da Gama. (1997) Density-functional approach to the theory of dipolar fluids. Journal of Physics A: Mathematical and General 30:6, pages 1953-1965.
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M. A. Osipov, P. I. C. Teixeira & M. M. Telo da Gama. (1996) Structure of strongly dipolar fluids at low densities. Physical Review E 54:3, pages 2597-2609.
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Robert Penfold, Shabira Abbas & Sture Nordholm. (1996) Effective potential approach to bulk thermodynamic properties and surface tension of molecular fluids I. Single component n-alkane systems. Fluid Phase Equilibria 120:1-2, pages 39-67.
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Nikola Marković. (1994) Estimation of complex formation rate constants for collisions between diatomic molecules. Chemical Physics 188:1, pages 73-85.
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B Yang, D E Sullivan & C G Gray. (1994) Density-functional theory of the water liquid-vapour interface: II. Journal of Physics: Condensed Matter 6:26, pages 4823-4842.
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H. Zhang & M. Widom. (1994) Global phase diagrams for dipolar fluids. Physical Review E 49:5, pages R3591-R3593.
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M. Kasch & F. Forstmann. (2010) An orientational instability in the vapour and the liquid‐vapour interface of a dipolar hard sphere fluid. Berichte der Bunsengesellschaft für physikalische Chemie 98:3, pages 497-500.
Crossref
Nikola Markoviˇ & Sture Nordholm. 1994. Dynamics of Ion–Molecule Complexes. Dynamics of Ion–Molecule Complexes 147 207 .
M. Kasch & F. Forstmann. (1993) An orientational instability and the liquid–vapor interface of a dipolar hard sphere fluid. The Journal of Chemical Physics 99:4, pages 3037-3048.
Crossref
Peter Frodl & S. Dietrich. (1992) Bulk and interfacial properties of polar and molecular fluids. Physical Review A 45:10, pages 7330-7354.
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Daniel Laría & Fernando Vericat. (1991) Clustering and percolation in dipolar hard-sphere fluids. Physical Review A 43:4, pages 1932-1939.
Crossref
Nikola Marković & Sture Nordholm. (1989) Simple estimation of thermal capture rates for ion-dipole collisions by canonical effective potential methods. Chemical Physics 135:1, pages 109-122.
Crossref
Nikola Markovic, Gunnar Nyman & Sture Nordholm. (1989) Complex formation in O+OH collisions - a two-step mechanism. Chemical Physics Letters 159:5-6, pages 435-441.
Crossref
Mark G. Sceats. 1988. Advances in Chemical Physics. Advances in Chemical Physics 357 467 .

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