Charge inversion and neutralization–reionization mass spectra of some alkoxide ions

Abstract

The charge inversion mass spectra of C₁ to C₃ alkoxide ions have been obtained using He, N₂ and O₂ as collision gases. The three collision gases show similar efficiencies for collisional charge inversion and produce similar mass spectra, although fewer high‐energy oxenium ions are formed when O₂ and N₂ are used as collision gases. Using two collision cells and an intermediate deflector electrode the alkoxide ions have been neutralized in the first collision cell and the fast neutrals ionized in the second cell. The neutralization–reionization mass spectra obtained are similar to the direct charge‐inversion mass spectra indicating that mainly alkoxyl radicals are produced, although, depending on the neutralization collision gas and the alkoxide ion studied, other neutrals are formed in small yields. Deuterium isotopic labelling has been used to show that the main fragmentation reactions of the unstable oxenium ions formed involve 1,1‐elimination of H₂ or an alkane.