posted on 2013-06-19, 00:00authored byBlake
M. Rankin, Dor Ben-Amotz
Raman
spectroscopy is combined with multivariate curve resolution
to quantify interactions between ions and molecular hydrophobic groups
in water. The molecular solutes in this study all have similar structures,
with a trimethyl hydrophobic domain and a polar or charged headgroup.
Our results imply that aqueous sodium and fluoride ions are strongly
expelled from the first hydration shells of the hydrophobic (methyl)
groups, while iodide ions are found to enter the hydrophobic hydration
shell, to an extent that depends on the methyl group partial charge.
However, our quantitative estimates of the corresponding ion binding
equilibrium constants indicate that the iodide concentration in the
first hydrophobic hydration shell is generally lower than that in
the surrounding bulk water, and so an iodide ion cannot be viewed
as having a true affinity for the molecular hydrophobic interface,
but rather is less strongly expelled from such an interface than fluoride.