Computational quantum mechanics is leading to new, theoretically based methods for the prediction of thermo-dynamic properties and phase behavior of interest to engineers. Three such methods we have been working on are reviewed here. In the most direct and computational intensive form, computational quantum mechanics is used to obtain information on the multidimensional potential energy surface between molecules, which is then used in computer simulation to predict thermodynamic properties and phase equilibria. At present, this method is limited to the study of small molecules due to the computational resources available. The second method is much less computationally intensive and provides a way to improve group-contribution methods by int...
International audienceIn this Introduction, we show the basic problems of non-statistical and non-eq...
A parametrization strategy for molecular models on the basis of force fields is proposed, which allo...
Maintaining a proper balance between specific intermolecular interactions and non-specific solvent i...
Computational quantum mechanics is leading to new, theoretically based methods for the prediction of...
A methodology to predict the thermodynamics of macroscopic fluid systems from quantum chemistry and ...
Modeling chemical reactions and complicated molecular systems has been proposed as the “killer appli...
Solvent and solute interactions are important chemical processes, but the details of such interactio...
The set of known stable phases of water may not be complete, and some of the phase boundaries betwee...
Molecular simulations of water using classical, molecular mechanic potential energy functions have e...
The book guides the reader from the foundations of statisti- cal thermodynamics including the theory...
In this project, we propose to utilize the novel concept of computational hierarchy for the predicti...
ABSTRACT: It has recently become possible to calculate the free energy and other thermodynamic funct...
Funder: CSCS Swiss National Supercomuputing Centre (project s957)Abstract: The set of known stable p...
Thermodynamic data are key in the understanding and design of chemical processes. Next to the experi...
Historically, reliable data for the thermophysical properties of fluids could only be obtained from ...
International audienceIn this Introduction, we show the basic problems of non-statistical and non-eq...
A parametrization strategy for molecular models on the basis of force fields is proposed, which allo...
Maintaining a proper balance between specific intermolecular interactions and non-specific solvent i...
Computational quantum mechanics is leading to new, theoretically based methods for the prediction of...
A methodology to predict the thermodynamics of macroscopic fluid systems from quantum chemistry and ...
Modeling chemical reactions and complicated molecular systems has been proposed as the “killer appli...
Solvent and solute interactions are important chemical processes, but the details of such interactio...
The set of known stable phases of water may not be complete, and some of the phase boundaries betwee...
Molecular simulations of water using classical, molecular mechanic potential energy functions have e...
The book guides the reader from the foundations of statisti- cal thermodynamics including the theory...
In this project, we propose to utilize the novel concept of computational hierarchy for the predicti...
ABSTRACT: It has recently become possible to calculate the free energy and other thermodynamic funct...
Funder: CSCS Swiss National Supercomuputing Centre (project s957)Abstract: The set of known stable p...
Thermodynamic data are key in the understanding and design of chemical processes. Next to the experi...
Historically, reliable data for the thermophysical properties of fluids could only be obtained from ...
International audienceIn this Introduction, we show the basic problems of non-statistical and non-eq...
A parametrization strategy for molecular models on the basis of force fields is proposed, which allo...
Maintaining a proper balance between specific intermolecular interactions and non-specific solvent i...