Potential of atmospheric pressure chemical ionization source in GC-QTOF MS for pesticide residue analysis
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Otros documentos de la autoría: Portoles, Tania; Sancho, Juan V; Hernandez, Felix; Newton, A.; Hancock, P.
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http://dx.doi.org/10.1002/jms.1784 |
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Título
Potential of atmospheric pressure chemical ionization source in GC-QTOF MS for pesticide residue analysisFecha de publicación
2010-08Editor
John Wiley & SonsISSN
1076-5174Cita bibliográfica
Journal of Mass Spectrometry (2010), 45, 8, p. 926-936Tipo de documento
info:eu-repo/semantics/articleVersión de la editorial
http://onlinelibrary.wiley.com/doi/10.1002/jms.1784/abstractPalabras clave / Materias
Resumen
The potential applications of a new atmospheric pressure source for GC-MS analysis have been investigated in this work. A list of around 100 GC-amenable pesticides, which includes organochlorine, organophosphorus and ... [+]
The potential applications of a new atmospheric pressure source for GC-MS analysis have been investigated in this work. A list of around 100 GC-amenable pesticides, which includes organochlorine, organophosphorus and organonitrogenated compounds, has been used to evaluate their behavior in the new source. Favoring the major formation of the molecular ion in the source has been the main goal due to the wide-scope screening possibilities that this fact brings in comparison with the traditional, highly fragmented electron ionization spectra. Thus, the addition of water as modifier has been tested as a way to promote the generation of protonated molecules. Pesticides investigated have been classified into six groups according to their ionization/fragmentation behavior. Four of them are characterized by the abundant formation of the protonated molecule in the atmospheric pressure source, mostly being the base peak of the spectrum. These results show that wide-scope screening could be easily performed with this source by investigating the presence of the protonated molecule ion, MH+. The developed procedure has been applied to pesticide screening in different food samples (nectarine, orange and spinach) and it has allowed the presence of several pesticides to be confirmed such as chlorpyriphos ethyl, deltamethrin and endosulfan sulfate. The availability of a quadrupole time-of-flight instrument made it feasible to perform additional MS/MS experiments for both standards and samples to go further in the confirmation of the identity of the detected compounds. Results shown in this paper have been obtained using a prototype source which exhibits promising features that could be applied to other analytical problems apart from those illustrated in this wo [-]
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Copyright © 2010 John Wiley & Sons, Ltd.
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