info:eu-repo/semantics/article
Headspace-mass spectrometry with alternative chromatographic separation using a column switching system for the screening and determination of BTEX and styrene in comestible oil
Fecha
2010-01Registro en:
Toledo, Carla; Enriquez, Pedro Gregorio; Garrido, Mariano Enrique; Fernández Band, Beatriz Susana; Richter Duk, Pablo Roberto; Headspace-mass spectrometry with alternative chromatographic separation using a column switching system for the screening and determination of BTEX and styrene in comestible oil; Taylor & Francis; Analytical Letters; 43; 5; 1-2010; 843-850
0003-2719
CONICET Digital
CONICET
Autor
Toledo, Carla
Enriquez, Pedro Gregorio
Garrido, Mariano Enrique
Fernández Band, Beatriz Susana
Richter Duk, Pablo Roberto
Resumen
A headspace-mass spectrometry with alternative chromatographic separation using a column switching system was developed for the screening and confirmation of BTEX and styrene in comestible oils. According to the position of the switching valve, the chromatographic column can be bypassed and the volatile sample constituents are transferred directly from the headspace sampler to the mass spectrometer providing a global, non resolved, signal in less than 1 min after injection. In this way, a set of samples can be rapidly processed in order to determine if they are (or not) contaminated with BTEX and styrene. Subsequently, only the samples with positive response in the previous screening can be processed by gas chromatography-mass spectrometry in the same analytical system by switching the position of the valve, thus confirming the presence of the analytes in the sample. The method presents good analytical features and it is applicable to the analysis of real samples. Detection limits were lower than 0.1 ng mL-1, and recoveries were between 97 and 105% with relative standard deviations lower than 4%. Analysis of real comestible oils showed the presence of toluene, benzene, and styrene in some samples packed in plastic bottles. © Taylor & Francis Group, LLC.