论文信息 - Proton affinities and cluster ion stabilities in CO2 and CS2. Applications in Martian ionospheric chemistry

Proton affinities and cluster ion stabilities in CO2 and CS2. Applications in Martian ionospheric chemistry

Thermodynamic values for the reaction CO2H++CH4?CH5+ +CO2 were measured by pulsed high pressure mass spectrometry as ΔH°=−2.8 kcal/mole, ΔS°=−2.4 e.u.; for CS2H+ +H2O?H3O++CS2 as ΔH°=−2.3 kcal/mole, ΔS°=−7.7 e.u.; and for CS2H++H2S?H3S++CS2 as ΔH°=−7.6 kcal/mole, ΔS°=−9.6 e.u. The proton affinities of CO2 and CS2 are found to be 124.0 and 166.6 kcal/mole, respectively. The large entropy changes in the reactions involving CS2 are explained by a nonlinear CS2H+ ion. Stabilities of cluster ions, i.e., −ΔH° for the ion–molecule association reactions leading to the cluster ions were measured (in kcal/mole) as follows: For radical ions: CO2+⋅CO2, 16.2; CO2+⋅2CO2, 6.0; CS2+⋅CS2, 21.9; S2+⋅CS2, 21.9. For protonated, even‐electron ions: CO2H+⋅CO2, 20.1; CS2H+CS2, 11.1; H3O+⋅CO2, 14.4. The stability of CO2H+⋅CO2 is unusually high for a small protonated cluster ion and indicates significant hydrogen bonding in this ion. Entropies of association were found in the range −17 to −26 e.u. Limits for the stabilities of O2...

F. H. Field | M. Meot-ner

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