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Influence of Ionic Strength on Hydrophobic Interactions in Water: Dependence on Solute Size and Shape

Małgorzata Bogunia, Mariusz Makowski

2020The Journal of Physical Chemistry B96 citationsDOIOpen Access PDF

Abstract

, to observe its impact on hydrophobic interactions. The characteristic shape of PMFs with three extrema (contact minimum, solvent-separated minimum, and desolvation maximum) was observed for most of the compounds for hydrophobic interactions. Ionic strength affected hydrophobic interactions. We observed a tendency to deepen contact minima with an increase in ionic strength value in the case of spherical and spheroidal molecules. Additionally, two-dimensional distribution functions describing water density and average number of hydrogen bonds between water molecules were calculated in both water models for adamantane and hexane. It was observed that the density of water did not significantly change with the increase in ionic strength, but the average number of hydrogen bonds changed. The latter tendency strongly depends on the water model used for simulations.

Topics & Concepts

ChemistryIonic strengthHydrogen bondHydrophobic effectChemical physicsMoleculeMolecular dynamicsIonic bondingSolventPotential of mean forceComputational chemistryAqueous solutionPhysical chemistryOrganic chemistryIonSpectroscopy and Quantum Chemical StudiesPhase Equilibria and ThermodynamicsMaterial Dynamics and Properties
Influence of Ionic Strength on Hydrophobic Interactions in Water: Dependence on Solute Size and Shape | Litcius