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Molecular dynamics simulation of crystal structure and heat capacity in perovskite-type molybdates SrMoO3 and BaMoO3

Shuai Wang, Mahdad Mohammadi, Imants Dirba, Kathrin Hofmann, Barbara Albert, Lambert Alff, Philipp Komissinskiy, Leopoldo Molina‐Luna

2021Computational Materials Science11 citationsDOIOpen Access PDF

Abstract

A molecular dynamics simulation approach is applied to investigate thermal expansion of the lattice parameters and heat capacities of SrMoO3 and BaMoO3 perovskite-type molybdates in the temperature range between 300 and 1000 K. The meaningful shape of the pairwise potential for SrMoO3 and BaMoO3 is achieved by fitting their lattice parameters to those of the high-purity polycrystalline powders synthesized via reduction of their respective scheelite precursors in hydrogen atmosphere at high pressure. The approach is validated by the simulated temperature dependences of the heat capacity, which follow the reported experimental data near and above the Debye temperature.

Topics & Concepts

Molecular dynamicsCrystalliteHeat capacityScheeliteAtmospheric temperature rangeDebye modelPerovskite (structure)ThermalMaterials scienceCrystal structureThermodynamicsDebyeChemistryCrystallographyComputational chemistryMetallurgyPhysicsOrganic chemistryTungstenMagnetic and transport properties of perovskites and related materialsAdvanced Condensed Matter PhysicsThermal Expansion and Ionic Conductivity