Unimolecular reactions of gaseous picoline radical cations. A new experimental and computational study
Letzel M, Barth D, Kuck D, Grützmacher H-F, Kim SY, Yim MK, Choe JC (2013)
International Journal Of Mass Spectrometry 336: 1-16.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Letzel, MatthiasUniBi;
Barth, DieterUniBi;
Kuck, DietmarUniBi;
Grützmacher, Hans-FriedrichUniBi;
Kim, Sun Young;
Yim, Min Kyoung;
Choe, Joong Chul
Abstract / Bemerkung
The fragmentation reactions of the molecular ion of the three isomeric methylpyridines (2-picoline 1, 3-picoline 2, and 4-picoline 3) were studied using methods of tandem mass spectrometry and quantum chemical calculations with Gaussian-3 (G3) theory using the B3LYP density functional method (G3//B3LYP). Additionally RRKM calculations of the microcanonical rate constants of selected reaction pathways were performed. Derivatives of 2- and 4-picoline which bear an isotopically labeled methyl substituent (CD3: 1-d(3) and 3-d(3), (CH3)-C-13: 1-C-13 and 3-C-13) were also analyzed. Of the four primary dissociation reactions of the picoline radical cations 1(center dot+)-3(center dot+), the loss of a hydrogen atom, the elimination of an ethyne molecule and the elimination of a hydrogen cyanide molecule are observed in the MIKE spectra, while the loss of a methyl radical is only found in the collisional activation (CA) mass spectra of the molecular ions. The CA mass spectra of the labeled picoline radical ions reveal that some positional hydrogen exchange and carbon exchange takes place before the loss of the methyl radical. According to the G3 and RRKM calculations, the direct cleavage of the methyl substituent competes effectively with increasing internal energy of the ion with the loss of a methyl radical after rearrangements. The other three pathways found for metastable molecular ions are accompanied by efficient or complete hydrogen scrambling. The theoretical calculations prove that this scrambling occurs mainly by initial H-transfer from the methyl group to the pyridine ring and a subsequent H-ring walk. The calculations show further, that loss of H-center dot may occur from many of the intermediate ions after the rearrangements but that the direct loss of H-center dot from the methyl substituent competes successfully even at low energies, contrary to the behavior of the toluene radical ion. The elimination of an ethyne molecule gives rise to a broad flat-topped signal in the mass-analyzed ion kinetic energy (MIKE) spectra, and the MIKE spectra of 1-C-13 and 3-C-13 exhibit a 1:1 sharing of the C-13-label between ionic and neutral products. These particular features are explained by the theoretical calculations by a first rearrangement of the picoline radical cations to a seven-membered aza-cycloheptatriene radical cation 4(center dot+) followed by a rearrangement to a more rigid bicyclo-[3.2.0] isomer before the elimination of ethyne. Finally, the elimination of a hydrogen cyanide molecule exhibits only minor loss of C-13-label in the case of 1-C-13 and 3-C-13. This observation does not agree with any mechanism including a rearrangement to 4(center dot+). The theoretical calculations suggest that instead the loss of the hydrogen cyanide molecule proceeds by a cleavage of the pyridine ring after the initial H-transfer from the methyl substituent Although this pathway needs more energy than a rearrangement to 4(center dot+), its rate coefficients are superior owing to its loose transition states. (C) 2012 Elsevier B.V. All rights reserved.
Stichworte
Tandem mass spectrometry;
Fragmentation mechanism;
Isotope labeling;
calculation;
G3;
RRKM calculation
Erscheinungsjahr
2013
Zeitschriftentitel
International Journal Of Mass Spectrometry
Band
336
Seite(n)
1-16
ISSN
1387-3806
Page URI
https://pub.uni-bielefeld.de/record/2578727
Zitieren
Letzel M, Barth D, Kuck D, et al. Unimolecular reactions of gaseous picoline radical cations. A new experimental and computational study. International Journal Of Mass Spectrometry. 2013;336:1-16.
Letzel, M., Barth, D., Kuck, D., Grützmacher, H. - F., Kim, S. Y., Yim, M. K., & Choe, J. C. (2013). Unimolecular reactions of gaseous picoline radical cations. A new experimental and computational study. International Journal Of Mass Spectrometry, 336, 1-16. doi:10.1016/j.ijms.2012.11.005
Letzel, Matthias, Barth, Dieter, Kuck, Dietmar, Grützmacher, Hans-Friedrich, Kim, Sun Young, Yim, Min Kyoung, and Choe, Joong Chul. 2013. “Unimolecular reactions of gaseous picoline radical cations. A new experimental and computational study”. International Journal Of Mass Spectrometry 336: 1-16.
Letzel, M., Barth, D., Kuck, D., Grützmacher, H. - F., Kim, S. Y., Yim, M. K., and Choe, J. C. (2013). Unimolecular reactions of gaseous picoline radical cations. A new experimental and computational study. International Journal Of Mass Spectrometry 336, 1-16.
Letzel, M., et al., 2013. Unimolecular reactions of gaseous picoline radical cations. A new experimental and computational study. International Journal Of Mass Spectrometry, 336, p 1-16.
M. Letzel, et al., “Unimolecular reactions of gaseous picoline radical cations. A new experimental and computational study”, International Journal Of Mass Spectrometry, vol. 336, 2013, pp. 1-16.
Letzel, M., Barth, D., Kuck, D., Grützmacher, H.-F., Kim, S.Y., Yim, M.K., Choe, J.C.: Unimolecular reactions of gaseous picoline radical cations. A new experimental and computational study. International Journal Of Mass Spectrometry. 336, 1-16 (2013).
Letzel, Matthias, Barth, Dieter, Kuck, Dietmar, Grützmacher, Hans-Friedrich, Kim, Sun Young, Yim, Min Kyoung, and Choe, Joong Chul. “Unimolecular reactions of gaseous picoline radical cations. A new experimental and computational study”. International Journal Of Mass Spectrometry 336 (2013): 1-16.
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