Physics – Chemical Physics
Scientific paper
1995-05-24
Physics
Chemical Physics
17 pages, 6 Postscript figures, uses revtex.sty
Scientific paper
The hydration free energies of ions exhibit an approximately quadratic dependence on the ionic charge, as predicted by the Born model. We analyze this behavior using second-order perturbation theory. This provides effective methods to calculating free energies from equilibrium computer simulations. The average and the fluctuation of the electrostatic potential at charge sites appear as the first coefficients in a Taylor expansion of the free energy of charging. Combining the data from different charge states allows calculation of free-energy profiles as a function of the ionic charge. The first two Taylor coefficients of the free-energy profiles can be computed accurately from equi- librium simulations; but they are affected by a strong system-size dependence. We apply corrections for these finite-size effects by using Ewald lattice sum- mation and adding the self-interactions consistently. Results are presented for a model ion with methane-like Lennard-Jones parameters in SPC water. We find two very closely quadratic regimes with different parameters for positive and negative ions. We also studied the hydration free energy of potassium, calcium, fluoride, chloride, and bromide ions. We find negative ions to be solvated more strongly compared to positive ions of equal size, in agreement with experimen- tal data. We ascribe this preference of negative ions to their strong interac- tions with water hydrogens, which can penetrate the ionic van der Waals shell without direct energetic penalty in the models used. We also find a positive electrostatic potential at the center of uncharged Lennard-Jones particles in water, which favors negative ions. Regarding finite-system-size effects, we show that even using only 16 water molecules it is possible to calculate accu- rately the hydration free energy of sodium if self-interactions are considered.
Garcia Angel E.
Hummer Gerhard
Pratt Lawrence R.
No associations
LandOfFree
On the free energy of ionic hydration does not yet have a rating. At this time, there are no reviews or comments for this scientific paper.
If you have personal experience with On the free energy of ionic hydration, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and On the free energy of ionic hydration will most certainly appreciate the feedback.
Profile ID: LFWR-SCP-O-95167