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Thermodynamics and structural properties of CaO: A molecular dynamics simulation study

Cecilia M. S. Alvares, Guillaume Deffrennes, A. Pisch, N. Jakse

2020The Journal of Chemical Physics36 citationsDOIOpen Access PDF

Abstract

A detailed theoretical study of CaO in the solid and liquid states by means of combined classical and ab initio molecular dynamics simulations is presented. Evolution of the specific heat capacity at constant pressure as a function of temperature is studied, and the melting temperature and enthalpy of fusion are determined. It is shown that an empirical Born-Mayer-Huggins potential gives a good representation of pure CaO in the liquid and solid states as compared to available experimental data and density functional theory calculations. Consistency of the predicted results obtained for CaO with the data available in commercial thermodynamic databases and experimental values in the literature is discussed. The present methodology and theoretical results provide a new accurate basis for calculations of thermodynamic properties in a temperature range that is hardly accessible by experiments.

Topics & Concepts

ThermodynamicsMolecular dynamicsEnthalpy of fusionEnthalpyHeat capacityConsistency (knowledge bases)Ab initioFusionMaterials scienceStatistical physicsChemistryPhysical chemistryComputational chemistryPhysicsComputer scienceOrganic chemistryArtificial intelligencePhilosophyDifferential scanning calorimetryLinguisticsHigh-pressure geophysics and materialsnanoparticles nucleation surface interactionsMetallurgical Processes and Thermodynamics
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