Fast enantiomeric analysis of a complex essential oil with an innovative multidimensional gas chromatographic system

The present research is focussed on the evaluation of a recently developed high performance multidimensional gas chromatographic (MDGC) system employed in the fast analysis of a series of chiral compounds contained in rosemary essential oil. The heart of the MDGC system consists in a simple transfer...

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Bibliographic Details
Published in:Journal of Chromatography A 2006-02, Vol.1105 (1), p.11-16
Main Authors: Mondello, Luigi, Casilli, Alessandro, Tranchida, Peter Quinto, Furukawa, Masanao, Komori, Kyoichi, Miseki, Kozo, Dugo, Paola, Dugo, Giovanni
Format: Article
Language:English
Subjects:
Analytical chemistry
Applied sciences
Aroma and flavouring agent industries
Biological and medical sciences
Chemical industry and chemicals
Chemistry
Chiral analysis
Chromatographic methods and physical methods associated with chromatography
Chromatography, Gas - methods
Enantiomeric ratio
Essential oils, perfumes
Exact sciences and technology
Food industries
Fundamental and applied biological sciences. Psychology
Gas chromatographic methods
Gas Chromatography-Mass Spectrometry - methods
General pharmacology
Medical sciences
Multidimensional gas chromatography
Oils, Volatile - chemistry
Pharmacognosy. Homeopathy. Health food
Pharmacology. Drug treatments
Rosemary essential oil
Rosmarinus - chemistry
Stereoisomerism
Terpenes - analysis
Transfer system
Washing products. Cosmetics and toiletries. Perfumes
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Summary:The present research is focussed on the evaluation of a recently developed high performance multidimensional gas chromatographic (MDGC) system employed in the fast analysis of a series of chiral compounds contained in rosemary essential oil. The heart of the MDGC system consists in a simple transfer device for the rapid sequential re-injection of analyte “heart-cuts” from the first to the second dimension. The transfer system has no temperature restrictions, presents very low dead volumes and achieves multidimensional analysis through a pressure-balance mechanism. The MDGC set-up is characterized by two GC ovens (enabling independent temperature programming) and the possibility of mass spectrometric (MS) and/or flame ionization detection (FID). Multiple-cut conventional and fast MDGC–FID methods were developed and the results obtained compared, in order to evaluate the effectiveness of the system. In this respect, the rapid method provided the same analytical result in a greatly reduced time (approximately five times less). Furthermore, quali/quantitative data reproducibilty was very good. Fast MDGC was achieved by using micro-bore (0.1 mm I.D.) columns in both dimensions.
ISSN:0021-9673
DOI:10.1016/j.chroma.2005.08.013