Literature DB >> 19673572

Three-dimensional "Mercedes-Benz" model for water.

Cristiano L Dias1, Tapio Ala-Nissila, Martin Grant, Mikko Karttunen.   

Abstract

In this paper we introduce a three-dimensional version of the Mercedes-Benz model to describe water molecules. In this model van der Waals interactions and hydrogen bonds are given explicitly through a Lennard-Jones potential and a Gaussian orientation-dependent terms, respectively. At low temperature the model freezes forming Ice-I and it reproduces the main peaks of the experimental radial distribution function of water. In addition to these structural properties, the model also captures the thermodynamical anomalies of water: The anomalous density profile, the negative thermal expansivity, the large heat capacity, and the minimum in the isothermal compressibility.

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Year:  2009        PMID: 19673572     DOI: 10.1063/1.3183935

Source DB:  PubMed          Journal:  J Chem Phys        ISSN: 0021-9606            Impact factor:   3.488


  11 in total

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3.  Theory for the three-dimensional Mercedes-Benz model of water.

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4.  Derivation and assessment of phase-shifted, disordered vector field models for frustrated solvent interactions.

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5.  The application of the integral equation theory to study the hydrophobic interaction.

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Journal:  J Chem Phys       Date:  2014-01-14       Impact factor: 3.488

6.  Hierarchy of anomalies in the two-dimensional Mercedes-Benz model of water.

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Journal:  Phys Rev E       Date:  2018-09-11       Impact factor: 2.529

7.  A statistical mechanical theory for a two-dimensional model of water.

Authors:  Tomaz Urbic; Ken A Dill
Journal:  J Chem Phys       Date:  2010-06-14       Impact factor: 3.488

8.  Integral equation and thermodynamic perturbation theory for a two-dimensional model of chain-forming fluid.

Authors:  Tomaz Urbic
Journal:  J Mol Liq       Date:  2017-04-21       Impact factor: 6.165

9.  Analytical model for three-dimensional Mercedes-Benz water molecules.

Authors:  T Urbic
Journal:  Phys Rev E Stat Nonlin Soft Matter Phys       Date:  2012-06-25

10.  Simple model of hydrophobic hydration.

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Journal:  J Phys Chem B       Date:  2012-05-21       Impact factor: 2.991
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