Valorisation of the industrial hemp residue from essential oil production by recovery of cannabidiol and chemo-enzymatic conversion to cannabielsoin
The production of essential oils by steam distillation is invariably associated with large amounts of organic waste which is normally disposed of or returned to the fields, although it may still contain some valuable components. In particular, Cannabis sativa essential oil produced by steam distilla...
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| Veröffentlicht in: | Green chemistry : an international journal and green chemistry resource : GC 2024-05, Vol.26 (9), p.5211-522 |
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| container_title | Green chemistry : an international journal and green chemistry resource : GC |
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| creator | Fiorito, Daniele Tessaro, Davide Sangalli, Fabio Nobbio, Celeste Nebuloni, Mario Vezzini, Matteo Brenna, Elisabetta Parmeggiani, Fabio |
| description | The production of essential oils by steam distillation is invariably associated with large amounts of organic waste which is normally disposed of or returned to the fields, although it may still contain some valuable components. In particular,
Cannabis sativa
essential oil produced by steam distillation of the apical part of industrial hemp plants yields a soaked biomass residue that may contain high-value cannabinoids. From the perspective of sustainable exploitation of agricultural resources, a method to extract cannabidiol (CBD) from such waste was demonstrated and scaled-up, using bioethanol as a renewable bio-based solvent and without requiring chromatographic separation, with an overall yield of 10.1 mg CBD per g waste. The work paves the way to an integrated complete utilisation of industrial hemp byproducts. Furthermore, two alternative lipase-mediated chemo-enzymatic derivatisations have been designed and optimised for the conversion of the recovered CBD into cannabielsoin (CBE), an underexploited cannabinoid with attractive bioactivity. The processes are practical and efficient, with 31-47% isolated yields and green metrics comparing well with the established chemical alternatives.
A sustainable method to extract and purify cannabidiol (CBD) from soaked biomass waste from the production of essential oil of industrial hemp is disclosed. A simple and scalable lipase-mediated oxidation of CBD to cannabielsoin is also reported. |
| doi_str_mv | 10.1039/d4gc00415a |
| format | Article |
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Cannabis sativa
essential oil produced by steam distillation of the apical part of industrial hemp plants yields a soaked biomass residue that may contain high-value cannabinoids. From the perspective of sustainable exploitation of agricultural resources, a method to extract cannabidiol (CBD) from such waste was demonstrated and scaled-up, using bioethanol as a renewable bio-based solvent and without requiring chromatographic separation, with an overall yield of 10.1 mg CBD per g waste. The work paves the way to an integrated complete utilisation of industrial hemp byproducts. Furthermore, two alternative lipase-mediated chemo-enzymatic derivatisations have been designed and optimised for the conversion of the recovered CBD into cannabielsoin (CBE), an underexploited cannabinoid with attractive bioactivity. The processes are practical and efficient, with 31-47% isolated yields and green metrics comparing well with the established chemical alternatives.
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Cannabis sativa
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A sustainable method to extract and purify cannabidiol (CBD) from soaked biomass waste from the production of essential oil of industrial hemp is disclosed. 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essential oil produced by steam distillation of the apical part of industrial hemp plants yields a soaked biomass residue that may contain high-value cannabinoids. From the perspective of sustainable exploitation of agricultural resources, a method to extract cannabidiol (CBD) from such waste was demonstrated and scaled-up, using bioethanol as a renewable bio-based solvent and without requiring chromatographic separation, with an overall yield of 10.1 mg CBD per g waste. The work paves the way to an integrated complete utilisation of industrial hemp byproducts. Furthermore, two alternative lipase-mediated chemo-enzymatic derivatisations have been designed and optimised for the conversion of the recovered CBD into cannabielsoin (CBE), an underexploited cannabinoid with attractive bioactivity. The processes are practical and efficient, with 31-47% isolated yields and green metrics comparing well with the established chemical alternatives.
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| identifier | ISSN: 1463-9262 |
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| source | Royal Society Of Chemistry Journals; Alma/SFX Local Collection |
| subjects | Agricultural resources Agricultural wastes Biofuels Biological activity Cannabaceae Cannabidiol Cannabinoids Cannabis Distillation Essential oils Hemp Oil production Oils & fats Organic wastes Residues Steam distillation |
| title | Valorisation of the industrial hemp residue from essential oil production by recovery of cannabidiol and chemo-enzymatic conversion to cannabielsoin |
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