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Quasi-chemical theory for anion hydration and specific ion effects: Cl^-(aq) vs. F^-(aq)

Rempe, Susan R.; Muralidharan, A.; Pratt, L.R.; Chaudhari, M.I.

Anion hydration is complicated by H-bond between neighboring water molecules in addition to H-bond donation to the anion. This situation leads to competing structures and anharmonic vibrations for simple clusters like (H2O)nCl-. This study applies quasi-chemical theory to study anion hydration and exploits dynamics calculations on isolated clusters to account for anharmonicity. Comparing singly hydrated halide clusters, classic H-bond donation to the anion occurs for F-, while Cl- clusters exhibit flexible dipole-dominated interactions. The predicted Cl- – F- hydration free energy difference agrees with experiment, a significant theoretical step for addressing issues like Hofmeister ranking and selectivity in ion channels.

Publications Details

Quasi-chemical theory for anion hydration and specific ion effects: Cl-(aq) vs. F-(aq)

Quasi-chemical theory for anion hydration and specific ion effects: Cl^-(aq) vs. F^-(aq)