Litcius/Paper detail

Hydration Structure of Na <sup>+</sup> and K <sup>+</sup> Ions in Solution Predicted by Data-Driven Many-Body Potentials

Debbie Zhuang, Marc Riera, Ruihan Zhou, Alexander Deary, Francesco Paesani

2022The Journal of Physical Chemistry B38 citationsDOI

Abstract

The hydration structure of Na+ and K+ ions in solution is systematically investigated using a hierarchy of molecular models that progressively include more accurate representations of many-body interactions. We found that a conventional empirical pairwise additive force field that is commonly used in biomolecular simulations is unable to reproduce the extended X-ray absorption fine structure (EXAFS) spectra for both ions. In contrast, progressive inclusion of many-body effects rigorously derived from the many-body expansion of the energy allows the MB-nrg potential energy functions (PEFs) to achieve nearly quantitative agreement with the experimental EXAFS spectra, thus enabling the development of a molecular-level picture of the hydration structure of both Na+ and K+ in solution. Since the MB-nrg PEFs have already been shown to accurately describe isomeric equilibria and vibrational spectra of small ion–water clusters in the gas phase, the present study demonstrates that the MB-nrg PEFs effectively represent the long-sought-after models able to correctly predict the properties of ionic aqueous systems from the gas to the liquid phase, which has so far remained elusive.

Topics & Concepts

IonExtended X-ray absorption fine structureChemistrySpectral linePotential of mean forceIonic bondingAqueous solutionAbsorption (acoustics)Chemical physicsForce field (fiction)Molecular dynamicsPhase (matter)Absorption spectroscopyComputational chemistryPhysical chemistryPhysicsAstronomyOrganic chemistryAcousticsQuantum mechanicsSpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesChemical and Physical Properties in Aqueous Solutions