Mass spectrometry and theoretical calculations about the loss of methyl radical from methoxilated coumarins

•We obtained a quantitative explanation about the methyl loss from methoxy coumarins.•Different theoretical models are useful to explain the fragmentation occurred in MS.•The QTAIM analysis explains adequately the formation of p-quinoid resonance forms.•We obtained the best correlation using the NBO...

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Bibliographic Details
Published in:Journal of molecular structure 2015-08, Vol.1093, p.49-58
Main Authors: Borkowski, Eduardo J., Cecati, Francisco M., Suvire, Fernando D., Ruiz, Diego M., Ardanaz, Carlos E., Romanelli, Gustavo P., Enriz, Ricardo D.
Format: Article
Language:English
Subjects:
Coumarins
DFT calculation
Mass spectrometry
NBO method
QTAIM
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Summary:•We obtained a quantitative explanation about the methyl loss from methoxy coumarins.•Different theoretical models are useful to explain the fragmentation occurred in MS.•The QTAIM analysis explains adequately the formation of p-quinoid resonance forms.•We obtained the best correlation using the NBO approximation and the Wiberg indexes.•This kind of explanation can be used in compounds with similar MS behavior. In this study we have performed CID mass spectrometry measurements and theoretical calculations in a selected series of coumarins. Our theoretical and experimental results indicate that there is room for reasonable doubts about the fragmentation way previously proposed by Shapiro and Djerassi (1965). A complementary explanation about the fragmentation way of the methyl loss from methoxy coumarins has been reported in this work. Our results demonstrated that different theoretical models are very useful to explain the fragmentation occurred in MS, supporting the usual rules of fragmentation. Although the QTAIM analysis gives a good correlation in order to explain the formation of p-quinoid resonance forms; however, the best correlation has been obtained using the NBO approximation as well as from the Wiberg indexes.
ISSN:0022-2860
1872-8014
DOI:10.1016/j.molstruc.2015.03.007