Thermodynamic Properties of Aqueous Organic Solutes in Relation to Their Structure. Part I. Free Energy of Transfer from H2O to D2O for a Series of Isomeric Ketones

Abstract

The solubilities of 18 decanones have been measured in H₂O and D₂O at 25 °C from their u.v. absorption spectra. The data were used to calculate ΔG_t⁰, the standard free energy of transfer of these solutes from H₂O to D₂O ΔG_t⁰ was found negative for the saturated ketones, but positive for most of the unsaturated and polycyclic isomers. A rough correlation was observed between ΔG_t⁰ and the degree of branching in the hydrocarbon chains of the ketones: ΔG_t⁰ increases with the degree of branching. From the temperature dependence of ΔG_t⁰ obtained at 10, 25, and 40 °C, heats of transfer ΔH_t⁰ were determined for typical ketones, namely 2-decanone and adamantanone. ΔH_t⁰ was found as −2.1 kcal mol⁻¹ for 2-decanone and ~0 ± 0.5 kcal mol⁻¹ for adamantanone.The results are discussed in terms of two main contributions: (1) an isotope effect in the free energy of cavity formation and (2) perturbation of solvent structure by the solutes, differing in H₂O and D₂O. Using the scaled-particle theory to evaluate the former, the variations in the observed ΔG_t⁰ are assigned to the structural part of ΔG_t⁰.