Dehydration-Driven Ion Aggregation and the Onset of Gelation in ZnCl2 Solution

Abstract

A minimal model of ionic aggregation in concentrated ZnCl2 is developed, guided by molecular dynamics simulations with a machine-learned potential. It explicitly incorporates solvent-site depletion, correlated chloride binding, and allows for loops within Zn-Cl clusters. Dehydration is shown to drive ion binding through two sharp transitions set by the Zn coordination number Z: a crossover at Z=2 from isolated ions to Cl-bridged clusters, and gelation near Z≈ 3. The model agrees quantitatively with MD results, and the critical exponent of the cluster-size distribution matches percolation theory.

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