Ardhra, ShylendranShylendranArdhraPrakash, PrabhatPrabhatPrakashSiva Dev, RabinRabinSiva DevVenkatnathan, ArunArunVenkatnathan2025-08-312025-08-312022-03-1710.1021/acs.jpcb.2c005572-s2.0-85126339611https://d8.irins.org/handle/IITG2025/2614535245053Glyme-based sodium electrolytes show excellent electrochemical properties and good chemical and thermal stability compared with existing carbonate-based battery electrolytes. In this investigation, we perform classical molecular dynamics (MD) simulations to examine the effect of concentration and temperature on ion-ion interactions and ion-solvent interactions via radial distribution functions (RDFs), mean residence time, ion cluster analysis, diffusion coefficients, and ionic conductivity in sodium hexafluorophosphate (NaPF<inf>6</inf>) salt in diglyme mixtures. The results from MD simulations show the following trends with concentration and temperature: The Na⁺- -O(diglyme) interactions increase with concentration and decrease with temperature, while the Na⁺- -F(PF<inf>6</inf>^-) interactions increase with concentration and temperature. The mean residence time suggests that Na⁺- -O(diglyme) are significantly longer lived compared with that of Na⁺- -F(PF<inf>6</inf>^-) and H (diglyme) - -F(PF<inf>6</inf>^-), which shows the affinity of diglyme to the Na⁺ions. The ion cluster analysis suggests that the Na⁺ions largely exist as solvated ions (coordinated to diglyme molecules), whereas some fractions exist as contact-ion pairs, and negligible fractions as aggregated ion pairs, with the latter two increasing slightly with temperature and more with ion concentration. The magnitude of the diffusion coefficients of Na⁺and PF<inf>6</inf>^-ions decreases with concentration and increases with temperature, where the Na⁺ion has slightly lower mobility compared with the PF<inf>6</inf>^-anion. The simulated total ionic conductivities show qualitative trends comparable to experimental data and highlight the need for the inclusion of ion-ion correlations in the Nernst-Einstein equation, especially at higher concentrations and lower temperatures.falseArticle152052072119-212917 March 202213arJournal18