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Solubility-consistent force field simulations for aqueous metal carbonate systems using graphical processing units

Blake Armstrong, Alessandro Silvestri, Raffaella Demichelis, Paolo Raiteri, Julian D. Gale

2023Philosophical Transactions of the Royal Society A Mathematical Physical and Engineering Sciences12 citationsDOIOpen Access PDF

Abstract

Crystallization of alkaline earth metal carbonates from water is important for biomineralization and environmental geochemistry. Here, large-scale computer simulations are a useful approach to complement experimental studies by providing atomistic insights and even by quantitatively determining the thermodynamics of individual steps. However, this is dependent on the existence of force field models that are sufficiently accurate while being computationally efficient enough to sample complex systems. Here, we introduce a revised force field for aqueous alkaline earth metal carbonates that reproduces both the solubilities of the crystalline anhydrous minerals, as well as the hydration free energies of the ions. The model is also designed to run efficiently on graphical processing units thereby reducing the cost of such simulations. The performance of the revised force field is compared against previous results for important properties relevant to crystallization, including ion-pairing and mineral-water interfacial structure and dynamics. This article is part of a discussion meeting issue 'Supercomputing simulations of advanced materials'.

Topics & Concepts

AnhydrousCrystallizationAqueous solutionForce field (fiction)SolubilityCarbonateField (mathematics)BiomineralizationAlkaline earth metalMetalMaterials scienceComputer scienceChemistryChemical physicsThermodynamicsChemical engineeringPhysicsPhysical chemistryMetallurgyOrganic chemistryMathematicsEngineeringPure mathematicsArtificial intelligenceCalcium Carbonate Crystallization and InhibitionSpectroscopy and Quantum Chemical StudiesCrystallization and Solubility Studies
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