The Association of Zn2+-SO42- and Mg2+-SO42- in Aqueous MgSO4/ZnSO4 Hybrid Electrolytes: Insights from All-Atom Molecular Dynamics Simulations Molecular Dynamics Simulations

Abstract

Magnesium sulfate ( MgSO4 ) is used as an additive to reduce capacity fading in rechargeable zinc-ion batteries. This study investigates the ion pairing and solvation structure of Zn2+-SO42- and Mg2+-SO42- in mixtures of [ZnSO4]2M + [MgSO4]0M , [ZnSO4]1M + [MgSO4]1M , and [ZnSO4]0M + [MgSO4]2M . Using molecular dynamics simulations, we evaluated dipole dynamics, spatial distributions, and coordination of ions through radial distribution functions, running coordination numbers, and potentials of mean force. The results reveal that increasing MgSO4 concentration disrupts Zn2+ self-association, while Mg2+ shows enhanced association. The analysis indicates different solvation structures, with Zn2+ maintaining a more ordered coordination with SO42- than Mg2+ . Preferential binding analysis highlights stronger Zn2+ affinity for SO42- , shedding light on ion interaction dynamics in mixed electrolytes.

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