在模拟烟草加热产品条件下Lovage (Levisticum officinale)和Davana (Artemisia pallens)精油的热氧化分解

E. Jakab, Z. Sebestyén, B. Babinszki, E. Barta-Rajnai, Z. Czégény, James Nicol, P. Clayton, Chuan Liu
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引用次数: 3

摘要

采用热解-气相色谱/质谱联用技术,在300℃、9%氧和91%氮的气氛下,模拟烟草低温加热条件,研究了lovage (Levisticum officinale)和davana (Artemisia pallens)精油的热氧化分解。lovage油和davana油都含有大量的化学物质;两种油的主要成分都是各种含氧化合物。异苯并呋喃酮是lovage油中最重要的成分,其相对强度在氧化热解过程中发生了显著变化。(Z)- liguslide经过两种分解反应:一种是芳构化反应,生成丁基苯酞;另一种是内酯环的断裂,二氧化碳或一氧化碳的消除。Davanone是Davanone油的主要成分,在低温氧化热解过程中没有发生明显的分解。然而,由于键重排反应,第二密集的组分——双环丙烯的相对产率显著降低。达瓦那醚经过氧化反应生成各种呋喃化合物。两种精油的组成变化可以从低温氧化热解过程中的键分裂、分子内重排机制和几种成分的氧化反应来解释。应用热氧化法在模拟烟草加热条件下,适用于研究精油的稳定性和监测分解产物。尽管精油的成分复杂,但没有发现油成分之间相互作用的证据。[Beitr。Tabakforsch。Int. 29 (2020) 27-43]
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Thermo-Oxidative Decomposition of Lovage (Levisticum officinale) and Davana (Artemisia pallens) Essential Oils under Simulated Tobacco Heating Product Conditions
Summary The thermo-oxidative decomposition of lovage (Levisticum officinale) and davana (Artemisia pallens) essential oils has been studied by pyrolysis-gas chromatography/mass spectrometry in 9% oxygen and 91% nitrogen atmosphere at 300 °C to simulate low-temperature tobacco heating conditions. Both lovage and davana oils contain numerous chemical substances; the main components of both oils are various oxygen-containing compounds. Isobenzofuranones are the most important constituents of lovage oil, and their relative intensity changed significantly during oxidative pyrolysis. (Z)-ligustilide underwent two kinds of decomposition reactions: an aromatization reaction resulting in the formation of butylidenephthalide and the scission of the lactone ring with the elimination of carbon dioxide or carbon monoxide. Davanone is the main component of davana oil, which did not decompose considerably during low-temperature oxidative pyrolysis. However, the relative yield of the second most intensive component, bicyclogermacrene, reduced markedly due to bond rearrangement reactions. Davana ether underwent oxidation reactions leading to the formation of various furanic compounds. The changes in the composition of both essential oils could be interpreted in terms of bond splitting, intramolecular rearrangement mechanisms and oxidation reactions of several constituents during low-temperature oxidative pyrolysis. The applied thermo-oxidative method was found to be suitable to study the stability of the essential oils and monitor the decomposition products under simulated tobacco heating conditions. In spite of the complicated composition of the essential oils, no evidence for interaction between the oil components was found. [Beitr. Tabakforsch. Int. 29 (2020) 27–43]
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