Chain Length Dependence of the Thermodynamic Properties ofn-Alkanes and their Monosubstituted Derivatives

Abstract

The present work presents an extensive literature survey and analysis of the heat capacity and thermodynamic properties of fusion, vaporization, and sublimation for the linear hydrocarbons and several terminally substituted homologous series. The successive introduction of methylene groups on the relative stability of the solid and liquid phases is analyzed and discussed based on the chain length dependence of the enthalpies, entropies, and Gibbs energies of phase transition. An odd–even alternation is observed in the fusion and sublimation equilibria. The improved packing patterns of even-numbered n-alkanes is reflected in higher values of melting temperatures and thermodynamic properties of phase transition. Molar heat capacities in liquid phase of n-alkanes derivatives exhibit a linear dependence with the chain length by an increment of 31 ± 2 J·K–1·mol–1 per methylene group (−CH2−). A contribution of 4.95 kJ·mol–1 per methylene group (value corrected for 298.15 K) is derived for the increment of the e...