Abstract
Abstract Hydrogen bond formation between tertiary amines and long chain and branched chain alcohols has been studied in order to understand the influence of chain length and the steric effect on the complex formation between tertiary amines and alcohols. On the addition of the amine to the alcohol the intensity of the monomeric OH band decreases and the new band appears corresponding to the alcohol—amine complex. The equilibrium constants of the complex formation are correlated by a two parameter equation. The three correlation equations obtained for three tertiary amines are: log K = 3.41 + 10.01σ* + 0.02χ (for triethylamine-alcohol) log K = 0.97 + 2.54σ* + 0.21χ (for tributylamine-alcohol) log K = 1.01 + 1.81σ* + 0.26χ (for trioctylamine-alcohol), where σ* is Taft's polar constant and χ the molecular connectivity index of the R skeleton of the alcohol.
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