Reaction of Cr+, Mn+, Fe+, Co+, and Ni+ with O2 and N2O. Examination of the translational energy dependence of the cross sections of endothermic reactions

Abstract

Reactions of Cr⁺, Mn⁺, Fe⁺, Co⁺, and Ni⁺ with O₂ and N₂O to yield metal oxide ions are examined using an ion beam apparatus. Reaction cross sections σ as a function of ion translational energy E are reported. With one exception, Fe⁺+N₂O, the cross sections exhibit an energy threshold E_o. Several models are used to interpret the excitation functions for the O₂ reactions and it is concluded that the classical line‐of‐centers form σ α (1–E_o/E) is most useful. Bond energies derived in this manner are D°(CrO⁺) = 3.45±0.1 eV, D°(MnO⁺) = 2.48±0.1 eV, D°(FeO⁺) = 3.01±0.1 eV, D°(CoO⁺) = 2.76±0.1 eV, and D°(NiO⁺) = 1.95±0.1 eV. Since these bond energies are all greater than D°(N₂–O) = 1.7 eV, the observation of energy thresholds for the reactions with N₂O are surprising. These results are explained in terms of a qualitative view of the electronic potential energy surfaces involved.