Abstract
AbstractFour isomeric thioethers, 2,3‐dimethylthiirane (1), 2‐methylthietane (2), tetrahydrothiophene (3), and allyl methyl thioether (4), have been subjected to mass spectrometric analysis in the gas phase, under electron impact (El) and chemical ionization (CI) conditions. The metastable molecular ions M+′ generated from 1‐4 under EI (70 eV) conditions give distinct patterns of unimolecular fragmentation, thus indicating that isomer interconversion reactions are slower than dissociation (a possible exception, to some extent, is the case of [M2]+′ and [M2]+′). The change of the relative intensities of some prominent peaks with increasing ion lifetime (decomposition within the ion source, the first, and the second field‐free regions of the mass spectrometer) is pointed out. Metastable [MH]+ ions, generated from 1‐4 in chemical ionization experiments with CH4, all eliminate H2 and H2S, although in different relative proportions. In addition to these processes protonated 4 also undergoes loss of C2H4 and C3H6, likely from a C‐protonated structure.
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