Ion cyclotron resonance studies on the reaction of H2+ and D2+ ions with various simple molecules and hydrocarbons

Abstract

The rate constants and product distributions for the reactions of H₂⁺ ions with N₂, O₂, and CO, and for the reactions of both H₂⁺ and D₂⁺ ions with CH₄, CD₄, NH₃, H₂O, H₂S, C₂H₂, C₂H₄, and C₂H₆ have been measured by ion cyclotron resonance methods. Proton transfer dominates in the reaction with diatomic molecules, and charge transfer dominates in the reaction with polyatomic molecules. However, a significant amount of charge transfer was observed in the reaction of H₂⁺ ions with O₂ and CO, and a significant amount of proton transfer was observed in the reaction of H₂⁺ ions with H₂O. The reaction with methane to form methyl cations appears to involve a superposition of both dissociative charge transfer and proton transfer followed by H₂ elimination. The extent of fragmentation resulting from H₂⁺ charge exchange to CH₄ is on the order of that observed in photoionization and Penning ionization of CH₄ at 16 eV total available energy, and much larger than is observed in electron impact of CH₄ at 16 eV.