We use the three-dimensional Mercedes-Benz model for water and Monte Carlo simulations to study the structure and thermodynamics of the hydrophobic interaction. Radial distribution functions are used to classify different cases of the interaction, namely, contact configurations, solvent separated configurations, and desolvation configurations. The temperature dependence of these cases is shown to be in qualitative agreement with atomistic models of water. In particular, while the energy for the formation of contact configurations is favored by entropy, its strengthening with increasing temperature is accounted for by enthalpy. This is consistent with our simulated heat capacity. An important feature of the model is that it can be used to ac...
Hydrophobic effects play an essential role for a variety of chemical processes. These effects fall i...
Coarse-grained (CG) Molecular Dynamics can be a powerful method for probing complex processes. Howev...
The hydration of hydrophobic solutes remains still illusive despite the long history of research. Of...
We use the three-dimensional Mercedes-Benz model for water and Monte Carlo simulations to study the ...
We develop an analytical statistical-mechanical model for hydrophobic solvation in water. In this th...
The free energy of the hydrophobic hydration and the strength of the solvent-mediated attraction bet...
A high level polarizable force field is used to study the temperature dependence of hydrophobic hydr...
Hydrophobicity is of central importance to many branches of chemistry, ranging from the low aqueous ...
A high level polarizable force field is used to study the temperature dependence of hydrophobic hydr...
Molecular statistical thermodynamic models of hydration for chemistry and biophysics have advanced a...
A comprehensive, semi-quantitative model for the thermodynamics of hydrophobic solvation is presente...
A theoretical approach is developed to quantify hydrophobic hydration and interactions on a molecula...
We elucidate the mechanism of cold denaturation through constant-pressure simulations for a model of...
This thesis describes the application of computer simulations and fundamental theoretical strategies...
The aversion of hydrophobic solutes for water drives diverse interactions and assemblies across mate...
Hydrophobic effects play an essential role for a variety of chemical processes. These effects fall i...
Coarse-grained (CG) Molecular Dynamics can be a powerful method for probing complex processes. Howev...
The hydration of hydrophobic solutes remains still illusive despite the long history of research. Of...
We use the three-dimensional Mercedes-Benz model for water and Monte Carlo simulations to study the ...
We develop an analytical statistical-mechanical model for hydrophobic solvation in water. In this th...
The free energy of the hydrophobic hydration and the strength of the solvent-mediated attraction bet...
A high level polarizable force field is used to study the temperature dependence of hydrophobic hydr...
Hydrophobicity is of central importance to many branches of chemistry, ranging from the low aqueous ...
A high level polarizable force field is used to study the temperature dependence of hydrophobic hydr...
Molecular statistical thermodynamic models of hydration for chemistry and biophysics have advanced a...
A comprehensive, semi-quantitative model for the thermodynamics of hydrophobic solvation is presente...
A theoretical approach is developed to quantify hydrophobic hydration and interactions on a molecula...
We elucidate the mechanism of cold denaturation through constant-pressure simulations for a model of...
This thesis describes the application of computer simulations and fundamental theoretical strategies...
The aversion of hydrophobic solutes for water drives diverse interactions and assemblies across mate...
Hydrophobic effects play an essential role for a variety of chemical processes. These effects fall i...
Coarse-grained (CG) Molecular Dynamics can be a powerful method for probing complex processes. Howev...
The hydration of hydrophobic solutes remains still illusive despite the long history of research. Of...