How Ions Affect the Structure of Water
University of California, San Francisco · University of Ljubljana
Abstract
We model ion solvation in water. We use the MB model of water, a simple two-dimensional statistical mechanical model in which waters are represented as Lennard-Jones disks having Gaussian hydrogen-bonding arms. We introduce a charge dipole into MB waters. We perform (NPT) Monte Carlo simulations to explore how water molecules are organized around ions and around nonpolar solutes in salt solutions. The model gives good qualitative agreement with experiments, including Jones-Dole viscosity B coefficients, Samoilov and Hirata ion hydration activation energies, ion solvation thermodynamics, and Setschenow coefficients for Hofmeister series ions, which describe the salt concentration dependence of the solubilities…
Citation impact
- FWCI
- 16.15
- Percentile
- 100%
- References
- 59
Authors
4- BHB. HribarCorresponding
University of California, San Francisco, University of Ljubljana
- NSNoel Southall
University of California, San Francisco, University of Ljubljana
- VVVojko Vlachy
University of Ljubljana, University of California, San Francisco
- KAKen A. Dill
University of California, San Francisco, University of Ljubljana
Topics & keywords
- Chemistry
- Solvation
- Ion
- Chemical physics
- Hydrogen bond
- Electrostatics
- Solvation shell
- Water model
- Clean water and sanitation