The behavior of substances in solutions may not be adequately characterized by the effect of any single physicochemical parameter of solvents, nor are numerous semi-empirical scales of the solvent effect (their âEUR¿polarityâEUR(TM)) suitable for their limited selections only
The behavior of substances in solutions may not be adequately characterized by the effect of any single physicochemical parameter of solvents, nor are numerous semi-empirical scales of the solvent effect (their âEUR¿polarityâEUR(TM)) suitable for their limited selections only
PREFACE Chapter 1. Physical and semi-empirical models of solvent influence on solute behavior Chapter 2. Linear free energy relationships in chemistry of solutions Chapter 3. Application of LFE relationships to chemical kinetics Chapter 4. Specific and nonspecific interactions in complex forming reactions Chapter 5. Quantitative consideration of the environment effect on gas adsorption and solubility of solids Chapter 6. Application of LFE Relationships to quantitative description of substance distribution processes between two phases Chapter 7. Application of LFE equations to absorption and chromatography, swelling of polymers and diffusion
PREFACE Chapter 1. Physical and semi-empirical models of solvent influence on solute behavior Chapter 2. Linear free energy relationships in chemistry of solutions Chapter 3. Application of LFE relationships to chemical kinetics Chapter 4. Specific and nonspecific interactions in complex forming reactions Chapter 5. Quantitative consideration of the environment effect on gas adsorption and solubility of solids Chapter 6. Application of LFE Relationships to quantitative description of substance distribution processes between two phases Chapter 7. Application of LFE equations to absorption and chromatography, swelling of polymers and diffusion
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