Add to ORKGAs part of our general QSPR treatment of solubility (started in the preceding paper), we now present quantitative relationships between solvent structures and the solvation free energies of individual solutes. Solvation free energies of 80 diverse organic solutes are each modeled in a range from 15 to 82 solvents using our CODESSA PRO software. Significant correlations (in terms of squared correlation coefficient) are found for all the 80 solutes: the best fit is obtained for n-propylamine (R2) 0.996); the lowest R2 corresponds to toluene (0.604)
A linear free energy relationship was found for the log (mole fraction) of solutes in a wide variety...
A linear free energy relationship was found for the log (mole fraction) of solutes in a wide variety...
A linear free energy relationship was found for the log (mole fraction) of solutes in a wide variety...
We present an extended QSPR modeling of solubilities of about 500 substances in series of up to 69 d...
We present an extended QSPR modeling of solubilities of about 500 substances in series of up to 69 d...
Article on a general treatment of solubility and quantitative structure-property relationship (QSPR)...
Article on a general treatment of solubility and the quantitative structure-property relationship (Q...
Article on a general treatment of solubility and quantitative structure-property relationship (QSPR)...
Due to the importance of the Gibbs free energy of solvation in understanding many physicochemical ph...
Several quantitative structure-property relationship (QSPR) approaches have been explored for the pr...
Several quantitative structure-property relationship (QSPR) approaches have been explored for the pr...
A simple predictive molecular thermodynamic model for bulk phases and interfaces is presented. The m...
QSPR correlation equations were developed for the prediction of the solubilities of organic gases an...
�� 2019 The Authors. Published by the Royal Society of Chemistry. This is an open access article ava...
The free energy of solvation, ΔGS0 , in octanol of organic compunds is quantitatively predicted from...
A linear free energy relationship was found for the log (mole fraction) of solutes in a wide variety...
A linear free energy relationship was found for the log (mole fraction) of solutes in a wide variety...
A linear free energy relationship was found for the log (mole fraction) of solutes in a wide variety...
We present an extended QSPR modeling of solubilities of about 500 substances in series of up to 69 d...
We present an extended QSPR modeling of solubilities of about 500 substances in series of up to 69 d...
Article on a general treatment of solubility and quantitative structure-property relationship (QSPR)...
Article on a general treatment of solubility and the quantitative structure-property relationship (Q...
Article on a general treatment of solubility and quantitative structure-property relationship (QSPR)...
Due to the importance of the Gibbs free energy of solvation in understanding many physicochemical ph...
Several quantitative structure-property relationship (QSPR) approaches have been explored for the pr...
Several quantitative structure-property relationship (QSPR) approaches have been explored for the pr...
A simple predictive molecular thermodynamic model for bulk phases and interfaces is presented. The m...
QSPR correlation equations were developed for the prediction of the solubilities of organic gases an...
�� 2019 The Authors. Published by the Royal Society of Chemistry. This is an open access article ava...
The free energy of solvation, ΔGS0 , in octanol of organic compunds is quantitatively predicted from...
A linear free energy relationship was found for the log (mole fraction) of solutes in a wide variety...
A linear free energy relationship was found for the log (mole fraction) of solutes in a wide variety...
A linear free energy relationship was found for the log (mole fraction) of solutes in a wide variety...