Radical cation/radical reactions: A Fourier transform ion cyclotron resonance study of allyl radical reacting with aromatic radical cations
Abstract
A method for the study of reactions of open-shell neutrals (radicals) and radical cations is described. Pyrolysis (25-1500 °C) of thermally labile compounds, such as, 1,5-hexadiene via a Chen nozzle yields a seeded beam of reactive species in helium. The pyrolysis products are then analyzed by electron ionization (EI) or reacted with stored ions. Electron ionization of the pyrolysis products of 1,5-hexadiene shows that both the allyl radical and allene are generated. Reactions of benzene radical cations and the pyrolysis products of 1,5-hexadiene result in carbon-carbon bond formation. Those reactions of allyl radical with the benzene radical cation yield the C7H7+ ion of m/z 91, permitting an unusual entry into arenium ions. The reaction of allene with benzene radical cation in contrast yields C9H10+ and C9H9+.
- Publication:
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International Journal of Mass Spectrometry
- Pub Date:
- October 2009
- DOI:
- Bibcode:
- 2009IJMSp.287....8R
- Keywords:
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- Radical-radical cation reaction;
- Allyl radical;
- Aromatic radical cation;
- Chen nozzle;
- Fourier transform ion cyclotron resonance mass spectrometry;
- Reaction mechanism