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Lessons Learned on Obtaining Reliable Dynamic Properties for Ionic Liquids

Tom Frömbgen, Paul Zaby, Vahideh Alizadeh, Juarez L. F. Da Silva, Barbara Kirchner, Tuanan C. Lourenço

2025ChemPhysChem15 citationsDOIOpen Access PDF

Abstract

Abstract Ionic liquids are nowadays investigated with respect to their use as electrolytes for high‐performance energy storage materials. In this study, we provide a tutorial on how to calculate dynamic properties such as self‐diffusion coefficients, ionic conductivities, transference numbers, as well as ion pair and ion cage dynamics, that all play a role in judging the applicability of ionic liquids as electrolytes. For the case of the ionic liquid , we investigate the performance of different force fields. Amongst them are non‐polarizable models employing unity charges, a charge‐scaled version of a non‐polarizable model, a polarizable model and another non‐polarizable model with refined Lennard‐Jones parameters. We also study the influence of the system size on the dynamic properties. While all studied force field models capture qualitatively correct trends, only the polarizable force field and the non‐polarizable force field with refined Lennard‐Jones parameters provide quantitative agreement to reference data, making the latter model very attractive for the reason of lower computational costs.

Topics & Concepts

PolarizabilityIonic liquidForce field (fiction)IonElectrolyteIonic bondingChemical physicsMolecular dynamicsChemistryField (mathematics)DiffusionThermodynamicsStatistical physicsComputational chemistryPhysical chemistryPhysicsMoleculeQuantum mechanicsOrganic chemistryCatalysisPure mathematicsElectrodeMathematicsIonic liquids properties and applicationsCatalysis and Oxidation ReactionsPolyoxometalates: Synthesis and Applications