Molecules (Feb 2022)

The Ionic Product of Water in the Eye of the Quantum Cluster Equilibrium

  • Barbara Kirchner,
  • Johannes Ingenmey,
  • Michael von Domaros,
  • Eva Perlt

DOI
https://doi.org/10.3390/molecules27041286
Journal volume & issue
Vol. 27, no. 4
p. 1286

Abstract

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The theoretical description of water properties continues to be a challenge. Using quantum cluster equilibrium (QCE) theory, we combine state-of-the-art quantum chemistry and statistical thermodynamic methods with the almost historical Clausius–Clapeyron relation to study water self-dissociation and the thermodynamics of vaporization. We pay particular attention to the treatment of internal rotations and their impact on the investigated properties by employing the modified rigid-rotor–harmonic-oscillator (mRRHO) approach. We also study a novel QCE parameter-optimization procedure. Both the ionic product and the vaporization enthalpy yield an astonishing agreement with experimental reference data. A significant influence of the mRRHO approach is observed for cluster populations and, consequently, for the ionic product. Thermodynamic properties are less affected by the treatment of these low-frequency modes.

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