Abstract
The vapor pressures and vaporization enthalpies of the major components of opopanax oil, a medicinal that has been in use since biblical times, are evaluated by correlation gas chromatography. Two sets of hydrocarbon standards are used, n-alkanes and a mixture of cyclic and polycyclic hydrocarbons. Two of the oil’s sesquiterpene components, evaluated in a previous study, were used both as standards and also as targets. Their use as targets was in an effort to confirm both their identity in the oil and the reproducibility of their properties. All correlations produce reproducible vaporization enthalpies and vapor pressures at ambient temperatures. At elevated temperatures, the use of the two different sets of standards resulted in some divergence in vapor pressure. Experiments are described aimed at attenuating this divergence. The results are compared to existing data.
Highlights
Opoponax essential oil, known as Sweet Myrrh is steam distilled from the resin of trees of the same genus as Myrrh and their odors both share some similarities
This study reports the vaporization enthalpies and vapor pressures of the sesquiterpenes reported above
The correlation coefficients of Eqs. (6) through (9) describe the quality of the correlations. Results from these correlations and their duplicates along with the uncertainties associated with the slopes and intercepts of all runs are reported in the Supporting Information
Summary
Known as Sweet Myrrh is steam distilled from the resin of trees of the same genus as Myrrh and their odors both share some similarities. Other properties of the opoponax essential oil includes use as an expectorant and as an antispasmodic. An additional use of opoponax essential oil has been as a fixative in the perfume industry [2]. The chemical composition of the essential oil varies, depending on the species. The genus comprises of more than 200 species, all native to Africa, Arabia, Madagascar and India [1]. The volatile oils in the two species used in this study, commiphora guidotti, and commiphora glabrescenes, are rich in five sesquiterpenes, α-santalene, cis α-bisabolene, cis α-bergamotene, α trans-bergamotene, and β-bisabolene [3,4].
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