Add to ORKGA comprehensive, semi-quantitative model for the thermodynamics of hydrophobic solvation is presented. The model is based on a very simple premise suggested by the scaled particle theory and treats both solute and solvent molecules as hard spheres. A connection between the peculiarly large heat-capacity change for hydrophobic solvation and the large temperature dependence of the thermal expansivity of water is found. Analysis reveals a possible physical origin for the converging behavior of solvation entropies for a series of homologous hydrophobic compounds. The model suggests that the low solubility and the large heat-capacity change of hydrophobic solvation stem from two distinct aspects of water molecules: the static geometry of the mol...
To improve the description of solvation thermodynamics of biomolecules, we report here the dependenc...
To improve the description of solvation thermodynamics of biomolecules, we report here the dependenc...
We measure the solvation free energy, Δμ*, for hard spheres and Lennard-Jones particles in a number ...
The experimentally well-known convergence of solvation entropies and enthalpies of different small h...
The experimentally well-known convergence of solvation entropies and enthalpies of different small h...
Molecular dynamics simulations are used to model the transfer thermodynamics of krypton from the gas...
We develop an analytical statistical-mechanical model for hydrophobic solvation in water. In this th...
textTemperature, pressure, and length scale dependence of the solvation of simple solvophobic solute...
textTemperature, pressure, and length scale dependence of the solvation of simple solvophobic solute...
The free energy of the hydrophobic hydration and the strength of the solvent-mediated attraction bet...
Two main physical explanations of hydrophobicity seem to be currently competing. The classical, intu...
The free energy of the hydrophobic hydration and the strength of the solvent-mediated attraction bet...
The hydration of hydrophobic solutes remains still illusive despite the long history of research. Of...
Molecular statistical thermodynamic models of hydration for chemistry and biophysics have advanced a...
Simulations of water near extended hydrophobic spherical solutes have revealed the presence of a reg...
To improve the description of solvation thermodynamics of biomolecules, we report here the dependenc...
To improve the description of solvation thermodynamics of biomolecules, we report here the dependenc...
We measure the solvation free energy, Δμ*, for hard spheres and Lennard-Jones particles in a number ...
The experimentally well-known convergence of solvation entropies and enthalpies of different small h...
The experimentally well-known convergence of solvation entropies and enthalpies of different small h...
Molecular dynamics simulations are used to model the transfer thermodynamics of krypton from the gas...
We develop an analytical statistical-mechanical model for hydrophobic solvation in water. In this th...
textTemperature, pressure, and length scale dependence of the solvation of simple solvophobic solute...
textTemperature, pressure, and length scale dependence of the solvation of simple solvophobic solute...
The free energy of the hydrophobic hydration and the strength of the solvent-mediated attraction bet...
Two main physical explanations of hydrophobicity seem to be currently competing. The classical, intu...
The free energy of the hydrophobic hydration and the strength of the solvent-mediated attraction bet...
The hydration of hydrophobic solutes remains still illusive despite the long history of research. Of...
Molecular statistical thermodynamic models of hydration for chemistry and biophysics have advanced a...
Simulations of water near extended hydrophobic spherical solutes have revealed the presence of a reg...
To improve the description of solvation thermodynamics of biomolecules, we report here the dependenc...
To improve the description of solvation thermodynamics of biomolecules, we report here the dependenc...
We measure the solvation free energy, Δμ*, for hard spheres and Lennard-Jones particles in a number ...