Description

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 ÃâËœpolarityÃââ) suitable for their limited selections only. In recent decades, it has been found that the variation of reaction rate constants in solutions or that spectral parameters of dissolved substances are determined by the total effect of different solvation processes. This monograph presents numerous examples of such an approach and characterizes various empirical and semi-empirical scales of solvent properties. It is shown that additional consideration of some structural parameters of solvents, namely, their cohesive energy and the molar volume, may provide for spreading this approach on homolytical and catalytic reaction.
It is also shown that for the solvolysis reaction, one of the excessive reagents may represent either a reagent or a solvent, which requires

Correlation Analysis in Chemistry of Solutions

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Hardback by Roman Makitra

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The behavior of substances in solutions may not be adequately characterized by the effect of any single physicochemical parameter of... Read more

    Publisher: CRC Press
    Publication Date: 7/1/2004
    ISBN13: 9789067644068, 978-9067644068
    ISBN10: 9067644064

    Non Fiction , Mathematics & Science , Education

    Description

    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 ÃâËœpolarityÃââ) suitable for their limited selections only. In recent decades, it has been found that the variation of reaction rate constants in solutions or that spectral parameters of dissolved substances are determined by the total effect of different solvation processes. This monograph presents numerous examples of such an approach and characterizes various empirical and semi-empirical scales of solvent properties. It is shown that additional consideration of some structural parameters of solvents, namely, their cohesive energy and the molar volume, may provide for spreading this approach on homolytical and catalytic reaction.
    It is also shown that for the solvolysis reaction, one of the excessive reagents may represent either a reagent or a solvent, which requires

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