Abstract
Ionic assemblies of acetic acid and water form unlimited hydrogen bond networks. The stabilities of the networks correlate with the intrinsic acidities of the components, leading to strong CH3COO-···HOOCCH3 bonds and weak CH3COO-···H2O bonds. These relations apply from strong bonds in small aggregates to weak bonds in large assemblies, and affect the energies of acid dissociation and self-assembly. Partial solvation of CH3COO- by four H2O molecules facilitates acid dissociation and decreases the CH3COO-−H+ bond dissociation energy by 332 kJ/mol (80 kcal/mol). The stabilites of the hydrogen bond networks increase with CH3COOH content, and aggregation decreases further the acid dissociation energy by forming strong CH3COO-···HOOCCH3 bonds about the ions and by stabilizing the released protons in (CH3COOH)m(H2O)nH+ assemblies. The combination of strong CH3COO-···HOOCCH3 bonds and weak CH3COO-···H2O bonds makes self-assembly with solvent displacement particularly favorable for carboxylic acids, explaining the...
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