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On the compatibility of the Madrid-2019 force field for electrolytes with the TIP4P/Ice water model

S. Blazquez, L. F. Sedano, Carlos Vega

2024The Journal of Chemical Physics11 citationsDOI

Abstract

The Madrid-2019 force field was recently developed to perform simulations of electrolytes in water. The model was specifically parameterized for TIP4P/2005 water and uses scaled charges for the ions. In this work, we test the compatibility of the Madrid-2019 force field with another water model: TIP4P/Ice. We shall denote this combination as Madrid-2019(TIP4P/Ice) force field. The key idea of this combination is to keep the ion-ion (Madrid-2019) and water-water (TIP4P/Ice) interactions unaltered with respect to the original models and taking the Lennard-Jones parameters for the ion-water interactions from the Madrid-2019 force field. By implementing this approach, we have maintained a reasonably good performance of the model regarding the densities and structural features of aqueous solutions, albeit yielding a moderately higher viscosity than the original model. However, the standout achievement of this new combination lies in its effective reproduction of the absolute values of the freezing temperatures of a number of ionic aqueous solutions, which could also be useful when studying hydrate formation from a two-phase system containing an aqueous solution in contact with a gas.

Topics & Concepts

Water modelWater iceForce field (fiction)Aqueous solutionIonThermodynamicsIonic bondingElectrolyteChemistryMaterials scienceMolecular dynamicsPhysicsPhysical chemistryComputational chemistryAstrobiologyQuantum mechanicsElectrodeOrganic chemistryMethane Hydrates and Related PhenomenaSpectroscopy and Quantum Chemical StudiesArctic and Antarctic ice dynamics
On the compatibility of the Madrid-2019 force field for electrolytes with the TIP4P/Ice water model | Litcius