Abstract
In this study, supercritical carbon dioxide (scCO2) extractions of cannabinoids were conducted at four different densities (231, 590, 818, and 911 kg/m3) using ethanol (5% w/v) as a co-solvent. The chemical profiles of these cannabinoids were analysed via reverse-phase high-performance liquid chromatography (RP-HPLC). It was determined that scCO2, at low density (231 kg/m3), produced an extract yield of 6.1% w/v. At high scCO2 density (~818 kg/m3), the yield was 16.1% w/v. More specifically, the amounts of tetrahydrocannabinol (THC) and cannabidiol (CBD) in the scCO2 extract at 818 kg/m3 were 10.8 and 15.6% w/v, respectively. It was also found that the use of 5% w/v ethanol increased scCO2 extract yields at both low and high densities (7.6% w/v and 18.2% w/v, respectively). Additionally, the use of co-solvent increased this yield further under both low- and high-density conditions, to 13.7 and 19.1% w/v, respectively. Interestingly, higher scCO2 density (911 kg/m3) with and without ethanol did not improve the scCO2 extract yield or the amount of cannabinoids. Although this study provides new insights into the correlation between scCO2 density and ethanol co-extraction of CBD and THC, more studies are needed to determine how different scCO2 densities and co-solvents influence the extraction of cannabinoids.
Highlights
To obtain bioactive substances from various plant-based matrices, Supercritical CO2 (scCO2) has been used widely and is considered a conventional extraction method
This study provides new insights into the correlation between scCO2 density and ethanol co-extraction of CBD and THC, more studies are needed to determine how different scCO2 densities and co-solvents influence the extraction of cannabinoids
CO2 is considered a useful solvent for the extraction of thermo-sensitive substances because its supercritical fluid state can be reached at mild temperatures [1,2]
Summary
To obtain bioactive substances from various plant-based matrices, scCO2 has been used widely and is considered a conventional extraction method. CO2 has high diffusivity that increases with higher temperature. It is inexpensive, nonflammable, readily available, and inert [3]. The use of organic solvents in scCO2 extraction can improve the extraction yield and the selectivity of specific compounds within the extract. This creates a complex solvent/co-solvent mixture and further studies are required to monitor the solutes’ effects in such extracts. The study claimed that cannabinoid extraction was higher (95 mg/g CBD and 1.20 mg/g THC) in extracts obtained at 100 bar and constant temperature (40 ◦ C) compared to samples operated at 200 and 300 bar. The yield of CO2 extract (12.0%wt) was relatively higher than the yield of propane extract (8.2%wt) [9]
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