Loss of methane and ethene from long-lived gaseous xylenium ions (protonated xylene) after "composite" scrambling

Mormann M, Kuck D (2002)
INTERNATIONAL JOURNAL OF MASS SPECTROMETRY 219(3): 497-514.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Mormann, M.; Kuck, DietmarUniBi
Abstract / Bemerkung
The unimolecular fragmentation of long-lived gaseous xylenium ions, CH3-C6H5+-CH3, has been studied in detail using C-13-labeling, in addition to deuterium labeling, in combination with mass-analyzed ion kinetic energy (MIKE) spectrometry. Metastable xylenium ions generated from the EI-induced loss of (COOR)-C-circle (R=H, CH3) from 1,4-dimethyl-1,4-dihydrobenzoic acid or its methyl ester or by protonation of para-xylene under CI(CH4) conditions eliminate H-2, CH4 and, most remarkably, C2H4. The kinetic energy release characteristics of these fragmentation processes are reported. H-2-labeling reveals that the loss of methane occurs by protonolytic cleavage of the C-alpha-C-lpso bonds, excluding intra-complex benzylic hydride abstraction by CH3+ ions. C-13-labeling confirms the composite scrambling behavior preceding both methane and ethene losses. CH4 loss of a major fraction (92%) of xylenium ions occurs without C scrambling but with some concomitant hydrogen exchange (H-alpha/H-ring) via nonclassical tolylmethonium ions, whereas a minor fraction (8%) undergoes complete C and H scrambling. C2H4 loss is preceded by different sequences of reversible ring expansion and ring contraction reactions involving methyldihydrotropylium ions (protonated methylcycloheptatriene) which, by irreversible ring contraction, eventually form ethylbenzenium ions (protonated ethylbenzene). A major fraction (66-75%) of the ions exhibits "specific" behavior, with the one of the methyl carbons being incorporated specifically into the ethene fragment and the other only after randomization with the carbons of the tolyl unit. A minor fraction (34-25%) of the ions undergoes complete C and H scrambling prior to ethene loss, involving both methyl groups. 1,2-CH3 shifts are invoked to occur in the xylenium and/or dihydrotropylium ions.
Stichworte
scrambling processes; protonated methylbenzenes; metastable ions; skeletal; rearrangements; alkylbenzenium ions
Erscheinungsjahr
2002
Zeitschriftentitel
INTERNATIONAL JOURNAL OF MASS SPECTROMETRY
Band
219
Ausgabe
3
Seite(n)
497-514
ISSN
1387-3806
Page URI
https://pub.uni-bielefeld.de/record/1613589

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Mormann M, Kuck D. Loss of methane and ethene from long-lived gaseous xylenium ions (protonated xylene) after "composite" scrambling. INTERNATIONAL JOURNAL OF MASS SPECTROMETRY. 2002;219(3):497-514.
Mormann, M., & Kuck, D. (2002). Loss of methane and ethene from long-lived gaseous xylenium ions (protonated xylene) after "composite" scrambling. INTERNATIONAL JOURNAL OF MASS SPECTROMETRY, 219(3), 497-514. https://doi.org/10.1016/S1387-3806(02)00703-0
Mormann, M., and Kuck, Dietmar. 2002. “Loss of methane and ethene from long-lived gaseous xylenium ions (protonated xylene) after "composite" scrambling”. INTERNATIONAL JOURNAL OF MASS SPECTROMETRY 219 (3): 497-514.
Mormann, M., and Kuck, D. (2002). Loss of methane and ethene from long-lived gaseous xylenium ions (protonated xylene) after "composite" scrambling. INTERNATIONAL JOURNAL OF MASS SPECTROMETRY 219, 497-514.
Mormann, M., & Kuck, D., 2002. Loss of methane and ethene from long-lived gaseous xylenium ions (protonated xylene) after "composite" scrambling. INTERNATIONAL JOURNAL OF MASS SPECTROMETRY, 219(3), p 497-514.
M. Mormann and D. Kuck, “Loss of methane and ethene from long-lived gaseous xylenium ions (protonated xylene) after "composite" scrambling”, INTERNATIONAL JOURNAL OF MASS SPECTROMETRY, vol. 219, 2002, pp. 497-514.
Mormann, M., Kuck, D.: Loss of methane and ethene from long-lived gaseous xylenium ions (protonated xylene) after "composite" scrambling. INTERNATIONAL JOURNAL OF MASS SPECTROMETRY. 219, 497-514 (2002).
Mormann, M., and Kuck, Dietmar. “Loss of methane and ethene from long-lived gaseous xylenium ions (protonated xylene) after "composite" scrambling”. INTERNATIONAL JOURNAL OF MASS SPECTROMETRY 219.3 (2002): 497-514.
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