Add to ORKGAccurate experimental values for the free energies of hydration, or the free energies of solvation, of the H+, OH-, and H3O+ ions are of fundamental importance. By use of the most accurate value for the free energy of solvation of H+, the known value for the free energy of solvation of water, and the known values for the gas phase and aqueous phase deprotonation of water, the corresponding experimental free energy of solvation for OH- is −106.4 ± 0.5 kcal/mol. Similarly, by use of the known values for ΔGf 0 for H3O, H2O+, and OH-, the known values for ΔGs for H+ and OH-, and the known value for the aqueous phase autoionization of water, we obtain an experimental free energy of solvation value for H3O+ of −103.4 ± 0.5 kcal/mol. These values ...
We derive a consistent approach for predicting the solvation free energies of charged solutes in the...
International audienceThis paper assesses the ability of molecular density functional theory to pred...
The hydration free energy (HFE) is a critical property for predicting and understanding chemical and...
Accurate experimental values for the free energies of hydration, or the free energies of solvation, ...
Accurate experimental values for the free energies of hydration, or the free energies of solvation, ...
The division of thermodynamic solvation free energies of electrolytes into contributions from indivi...
ABSTRACT: Accurate prediction of hydration free energies is a key objective of any free energy metho...
This work introduces a model, solvation model 6 with temperature dependence (SM6T), to predict the t...
Computational free-energy correction strategies and the choice of experimental proton hydration free...
Continuum dielectric methods such as the Born equation have been widely used to compute the electros...
Reaction rate and equilibrium constants in aqueous solutions are affected by the strength of hydroge...
This paper uses the relationship between the standard half reduction potential, the third ionization...
Department of Chemistry, Raja Rammohun Roy Mahavidyalaya, Hooghly, West Bengal, India E-mail : rbsal...
We derive a consistent approach for predicting the solvation free energies of charged solutes in the...
International audienceThis paper assesses the ability of molecular density functional theory to pred...
The hydration free energy (HFE) is a critical property for predicting and understanding chemical and...
Accurate experimental values for the free energies of hydration, or the free energies of solvation, ...
Accurate experimental values for the free energies of hydration, or the free energies of solvation, ...
The division of thermodynamic solvation free energies of electrolytes into contributions from indivi...
ABSTRACT: Accurate prediction of hydration free energies is a key objective of any free energy metho...
This work introduces a model, solvation model 6 with temperature dependence (SM6T), to predict the t...
Computational free-energy correction strategies and the choice of experimental proton hydration free...
Continuum dielectric methods such as the Born equation have been widely used to compute the electros...
Reaction rate and equilibrium constants in aqueous solutions are affected by the strength of hydroge...
This paper uses the relationship between the standard half reduction potential, the third ionization...
Department of Chemistry, Raja Rammohun Roy Mahavidyalaya, Hooghly, West Bengal, India E-mail : rbsal...
We derive a consistent approach for predicting the solvation free energies of charged solutes in the...
International audienceThis paper assesses the ability of molecular density functional theory to pred...
The hydration free energy (HFE) is a critical property for predicting and understanding chemical and...