Issue 34, 2023

The evolution of solvation symmetry and composition in Zn halide aqueous solutions from dilute to extreme concentrations

Abstract

The emergence of cation–anion species, or contact ion pairs, is fundamental to understanding the physical properties of aqueous solutions when moving from the ideal, low-concentration limit to the manifestly non-ideal limits of very high solute concentration or constituent ion activity. We focus here on Zn halide solutions both as a model system and also as an exemplar of the applications spanning from (i) electrical energy storage via the paradigm of water in salt electrolyte (WiSE) to (ii) the physical chemistry of brines in geochemistry to (iii) the long-standing problem of nucleation. Using a combination of experimental and theoretical approaches we quantify the halide coordination number and changing coordination geometry without embedded use of theoretical equilibrium constants. These results and the associated methods, notably including the use of valence-to-core X-ray emission spectroscopy, provide new insights into the Zn halide system and new research directions in the physical chemistry of concentrated electrolytes.

Graphical abstract: The evolution of solvation symmetry and composition in Zn halide aqueous solutions from dilute to extreme concentrations

Supplementary files

Article information

Article type
Paper
Submitted
05 Apr 2023
Accepted
01 Aug 2023
First published
09 Aug 2023

Phys. Chem. Chem. Phys., 2023,25, 22650-22661

Author version available

The evolution of solvation symmetry and composition in Zn halide aqueous solutions from dilute to extreme concentrations

D. Dhakal, D. M. Driscoll, N. Govind, A. G. Stack, N. Rampal, G. Schenter, C. J. Mundy, T. T. Fister, J. L. Fulton, M. Balasubramanian and G. T. Seidler, Phys. Chem. Chem. Phys., 2023, 25, 22650 DOI: 10.1039/D3CP01559A

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