Add to ORKGMonte Carlo simulations of the hydration of Ca2+ and Mg2+ were performed. The interaction potential used includes polarization and nonadditivity, factors that have been reported to be critical for the proper description of hydration. The effect of cell size, amount of configurations needed to attain equilibrium, and size of the statistical sample were studied. We validated the simulation by obtaining agreement with experiments. A microscopic analysis of the hydration shows that Mg2+ and its first shell can be considered as a supermolecule imbedded in the solvent. For Ca2+ this character is less marked and its first shell responds to the solvent more easily. From this view we explain the coordination properties of both ions. We found that th...
Thermochemical heat-storage applications, based on the reversible endo-/exothermic hydration reactio...
POLIR, a polarizable water potential optimized for vibrational and intermolecular spectroscopy in pu...
An ab intio two-body analytical potential function was constructed to describe Mn(II)-water interact...
The alkaline earth metals calcium and magnesium are critically involved in many biomolecular process...
The hydrations of Na+ and K+ were investigated by means of Monte Carlo simulations with refined ab i...
Computer simulations of dilute aqueous solutions of Ca2+ have been performed with a strictly two-bod...
Chemical thermodynamic models of solvent and solute activities predict the equilibrium behavior of a...
Herein, we report on the structure and dynamics of the aqueous Ca 2+ system studied by using ab init...
Classical molecular dynamics simulations of several aqueous alkali halide salt solutions have been u...
Abstract: The hydration of Mg2+ and Zn2+ is examined using molecular dynamics simulations using thre...
We report results from a theoretical study on the solvation of the divalent cations of Mg, Ca and Sr...
Abstract: The comparison of two different combined quantum mechanical (QM)/molecular mechanical (MM)...
Grand canonical Monte Carlo (GCMC) simulations of ionic solutions with explicit solvent models are k...
We have performed Monte Carlo simulations of the tetramethylammonium ion, hydrated by 256 simple poi...
Water exchange between the first and second hydration shell is essential for the role of Mg2+ in bio...
Thermochemical heat-storage applications, based on the reversible endo-/exothermic hydration reactio...
POLIR, a polarizable water potential optimized for vibrational and intermolecular spectroscopy in pu...
An ab intio two-body analytical potential function was constructed to describe Mn(II)-water interact...
The alkaline earth metals calcium and magnesium are critically involved in many biomolecular process...
The hydrations of Na+ and K+ were investigated by means of Monte Carlo simulations with refined ab i...
Computer simulations of dilute aqueous solutions of Ca2+ have been performed with a strictly two-bod...
Chemical thermodynamic models of solvent and solute activities predict the equilibrium behavior of a...
Herein, we report on the structure and dynamics of the aqueous Ca 2+ system studied by using ab init...
Classical molecular dynamics simulations of several aqueous alkali halide salt solutions have been u...
Abstract: The hydration of Mg2+ and Zn2+ is examined using molecular dynamics simulations using thre...
We report results from a theoretical study on the solvation of the divalent cations of Mg, Ca and Sr...
Abstract: The comparison of two different combined quantum mechanical (QM)/molecular mechanical (MM)...
Grand canonical Monte Carlo (GCMC) simulations of ionic solutions with explicit solvent models are k...
We have performed Monte Carlo simulations of the tetramethylammonium ion, hydrated by 256 simple poi...
Water exchange between the first and second hydration shell is essential for the role of Mg2+ in bio...
Thermochemical heat-storage applications, based on the reversible endo-/exothermic hydration reactio...
POLIR, a polarizable water potential optimized for vibrational and intermolecular spectroscopy in pu...
An ab intio two-body analytical potential function was constructed to describe Mn(II)-water interact...