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Proton-donating power of 100% perchloric acid: An MP2 study

Research paper by V. N. Solkan, V. B. Kazanskii

Indexed on: 30 Nov '11Published on: 30 Nov '11Published in: Kinetics and Catalysis



Abstract

The ab initio quantum chemical method MP2 with a 6-311++G(d, p) basis set is used to calculate the energy of gas-phase solvation of the H2Cl4+ cation and Cl4− anion by one perchloric acid molecule. The energy of additional solvation of the resulting complexes by liquid perchloric acid is estimated within the continuum model of solvation by the PCM method, with the acid modeled as a continuum with a large dielectric constant of ɛ = 115. The calculated data have provided an almost quantitative estimate for the energy of selfionization of 100% liquid perchloric acid. The similarly calculated energy of solvation of protons by 100% perchloric acid is 30.7 kcal/mol lower than the heat of hydration of protons in aqueous solution. This result explains the fact that anhydrous perchloric acid exhibits the properties of a superacid.