Abstract
The standard enthalpies of formation of ammonium and rubidium perrhenate have been determined, and the difference between them, 132.8 ± 1.5 kJ mol–1 is, as previously predicted, consistent with the observed barrier to ammonium ion rotation of 9–10 kJ mol–1. New thermodynamic properties are proposed for the perrhenate ion, including Sm⊖(ReO4–, aq)= 198.1 ± 3 J K–1 mol–1, and derived values consistent with these are ΔfHm⊖(NH4ReO4, s)=–975 kJ mol–1, ΔfHm⊖(RbReO4, s)=–1 108 kJ mol–1, and Sm⊖(RbReO4, s)= 182 J K–1 mol–1. As with several other anions which provide relatively little resistance to ammonium ion rotation, the solubility of the ammonium salt exceeds that of the rubidium compound. This may be attributable to hydrogen bonding of the ammonium ion in aqueous solution.
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