2009
DOI: 10.1111/j.1750-3841.2008.01029.x
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Profile of Volatile Compounds in 11 Brandies by Headspace Solid‐Phase Microextraction Followed by Gas Chromatography‐Mass Spectrometry

Abstract: A headspace solid-phase microextraction (HS-SPME) method coupled with gas chromatography-mass spectrometry (GC-MS) was applied for the qualitative or semiquantitative characterization of brandy volatiles. SPME variables (SPME fiber, extraction temperature and time, and ethanol concentration) were optimized. A total of 144 compounds were from the brandies' volatiles, tentatively identified or identified by comparing mass spectra and retention indices of the standards or from literature. Of these, 57 are common … Show more

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Cited by 64 publications
(42 citation statements)
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“…1683 1677, [17] 1687, [18,19] 1704 [18] Diethyl butanedioate 37.63 MS+LRI 2179 2152 [20] Nonanoic acid 44.74 MS+Std 1845 1839, [20] 1850, [17] 1856 [18] [20] 2270, [18] 2298, [23] 2314 [18] Decanoic acid 228.04 MS+LRI 2053 2054, [17] 2070 [18] Ethyl tetradecanoate 495.65 MS+LRI 2461 2448 [20] Benzoic acid 289.82 ms 2165 2151, [17] 2179 [18] Ethyl pentadecanoate 188.93 ms 2712 2713 [23] Tetradecanoic acid 162.02 MS+Std 2281 2261, [17] 2288 [18] Ethyl [25] 3184 [26] (9Z)-9-Octadecenoic acid 20415.09 MS+Std 2475 2483 [16] Ethyl octadecanoate 3781.82 MS+Std 3232 3157, [23] 3193 [23] (9Z,12Z [17] 2574 [16] Ethyl (9Z,12Z)-9, 12-octadecadienoate 18394.13 MS+Std…”
Section: Ms+lrimentioning
confidence: 97%
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“…1683 1677, [17] 1687, [18,19] 1704 [18] Diethyl butanedioate 37.63 MS+LRI 2179 2152 [20] Nonanoic acid 44.74 MS+Std 1845 1839, [20] 1850, [17] 1856 [18] [20] 2270, [18] 2298, [23] 2314 [18] Decanoic acid 228.04 MS+LRI 2053 2054, [17] 2070 [18] Ethyl tetradecanoate 495.65 MS+LRI 2461 2448 [20] Benzoic acid 289.82 ms 2165 2151, [17] 2179 [18] Ethyl pentadecanoate 188.93 ms 2712 2713 [23] Tetradecanoic acid 162.02 MS+Std 2281 2261, [17] 2288 [18] Ethyl [25] 3184 [26] (9Z)-9-Octadecenoic acid 20415.09 MS+Std 2475 2483 [16] Ethyl octadecanoate 3781.82 MS+Std 3232 3157, [23] 3193 [23] (9Z,12Z [17] 2574 [16] Ethyl (9Z,12Z)-9, 12-octadecadienoate 18394.13 MS+Std…”
Section: Ms+lrimentioning
confidence: 97%
“…Other compounds 2617 2675 [16] Ethyl (9Z,12Z,15Z)-9,12,15 -octadecatrienoate 2937.77 ms 1469 1460, [17] 1476, [18] 1480, [18] 1482 [19] Furan-2-carbaldehyde 72.10 MS+LRI [17] 2011, [20] 2037 [19] Phenol 48. [18] 1546, [20] 1553 [19] Butane-2,3-diol (threo-) [20] 1678 [19] 2-Furanmethanol …”
Section: Ms+lrimentioning
confidence: 99%
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“…Volatile (Ebeler et al, 2000;Laber et al, 1995;Zhao et al, 2009) and aromatic (Caldeira et al, 2004) compounds as well as organic acids (Park et al, 1999) were also analyzed in brandy. To this end, LLE and SPME with PDMS (Ebeler et al, 2000) and DVB/Car/ PDMS (Zhao et al, 2009) fibers were used. In Señor ans et al (2001) the application of a less popular extraction method, i.e., CC-SFE, for analyzing spirit-based beverages was reported.…”
Section: Analysis Of Alcoholic Beveragesmentioning
confidence: 99%
“…The type, content and sensory threshold of the aromatic substances are the primary factors that affect the quality of brandy. These factors also determine the flavor, representativeness and sensory quality of distilled grape spirits (Caldeira et al, 2002;Zhao et al, 2009). Grape varieties, wine-making and distillation factors (such as the temperature, yeast and oak treatment) jointly influence the volatile substances in spirits (Fan et al, 2006;Satora & Tuszynski, 2010).…”
Section: Introductionmentioning
confidence: 99%