Premium
Metastable [C 4 H 8 O] + ˙ ions: Additional decompositions via the [2‐butanone] + ˙ ion
Author(s) -
McAdoo David J.,
Hudson Charles E.,
Witiak Dennis N.
Publication year - 1979
Publication title -
organic mass spectrometry
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.475
H-Index - 121
eISSN - 1096-9888
pISSN - 0030-493X
DOI - 10.1002/oms.1210140703
Subject(s) - ion , chemistry , butanone , oxygen , metastability , photochemistry , ethylene , carbon fibers , decomposition , ionization , materials science , organic chemistry , catalysis , solvent , composite number , composite material
The losses of methyl and ethyl through the intermediacy of the [2‐butanone] + ˙ ion are shown to be the dominant metastable decomposition of 14 of 19 [C 4 H 8 O] + ˙ ions examined. The ions that decompose via the [2‐butanone] + ˙ structure include ionized aldehydes, unsaturated and cyclic alcohols and enolic ions. [Cyclic ether] + ˙ [cyclopropylmethanol] + ˙ and [2‐methyl‐1‐propen‐1‐ol] + ˙ ions do not decompose through ionized 2‐butanone. The rearrangements of various [C 4 H 8 O] + ˙ ions the the 2‐butanone ion were investigated by means of deuterium labeling. Those pathways involve up to eight steps. Ions with the oxygen on the end carbon rearrange to a common structure or mixture of structures. Those ions which ultimately rearrange to the [2‐butanone] + ˙ ion then undergo oxygen shifts from the terminal to the second and third carbons at about equal rates. However, this oxygen shift does not precede the losses of water and ethylene. Losses of water and ethylene were unimportant for ions with the oxygen initially on the second carbon. Ionized n ‐butanal and cyclobutanol, but not other [C 4 H 8 O] + ˙ ions, undergo reversible hydrogen exchange between the oxygen and the terminal carbon. Rearrangement of ionized n ‐butanal to the [cyclobutanol] + ˙ ion is postulated.