Add to ORKGThe morphology of small molecule crystals provides a model for evaluating surface solvation energies in a system with similar packing density to that observed for amino acid residues in proteins. The solvation energies associated with the transfer of methylene and carboxyl groups between vacuum and aqueous phases are estimated to be approx. +40 and -260 cal/Å^2, respectively, from an analysis of the morphology of succinic acid crystals. These solvation energies predict values for contact angles in reasonable agreement with measurements determined from macroscopic monolayer surfaces. Transfer free energies between vapor and water phases for a series of carboxylic acids are also predicted reasonably well by these solvation energies, provided ...
textA dehydrogen is an ‘under-wrapped’ hydrogen bond in a protein that is purported to be a hot spot...
We have developed a fast procedure to predict solvation free energies for both organic and biologica...
Protein-ligand binding occurs through interactions at the molecular surface. Hence, a proper descrip...
The morphology of small molecule crystals provides a model for evaluating surface solvation energies...
Backtracking the effect to the cause: The direct measure of the morphology of an organometallic mole...
The evaluation of solvation energies is a great challenge. We focus here on an organic molecule chem...
We report a computational method to investigate the mechanism through which the solvent interacts wi...
The surface structure of molecular crystals is of interest for several applications, such as th...
A new way of exploring packing modes and intermolecular interactions in molecular crystals is descri...
We have developed a method of calculating the solvation energy of a surface based on an implicit sol...
1 Introduction Chapter 1 contains a basic introduction to solvation models. Special attention is ...
NoThe surface energy of a-lactose monohydrate measured by inverse gas chromatography (IGC) is report...
Water occupies typically 50% of a protein crystal and thus significantly contributes to the diffract...
An important aspect of crystalline material synthesis from solution crystallization involves solvent...
Solvent-mediated crystallization represents a robust approach to self-assembly of nanostructures and...
textA dehydrogen is an ‘under-wrapped’ hydrogen bond in a protein that is purported to be a hot spot...
We have developed a fast procedure to predict solvation free energies for both organic and biologica...
Protein-ligand binding occurs through interactions at the molecular surface. Hence, a proper descrip...
The morphology of small molecule crystals provides a model for evaluating surface solvation energies...
Backtracking the effect to the cause: The direct measure of the morphology of an organometallic mole...
The evaluation of solvation energies is a great challenge. We focus here on an organic molecule chem...
We report a computational method to investigate the mechanism through which the solvent interacts wi...
The surface structure of molecular crystals is of interest for several applications, such as th...
A new way of exploring packing modes and intermolecular interactions in molecular crystals is descri...
We have developed a method of calculating the solvation energy of a surface based on an implicit sol...
1 Introduction Chapter 1 contains a basic introduction to solvation models. Special attention is ...
NoThe surface energy of a-lactose monohydrate measured by inverse gas chromatography (IGC) is report...
Water occupies typically 50% of a protein crystal and thus significantly contributes to the diffract...
An important aspect of crystalline material synthesis from solution crystallization involves solvent...
Solvent-mediated crystallization represents a robust approach to self-assembly of nanostructures and...
textA dehydrogen is an ‘under-wrapped’ hydrogen bond in a protein that is purported to be a hot spot...
We have developed a fast procedure to predict solvation free energies for both organic and biologica...
Protein-ligand binding occurs through interactions at the molecular surface. Hence, a proper descrip...