Extraction of High Value Triterpenic Acids from Eucalyptus globulus Biomass Using Hydrophobic Deep Eutectic Solvents
authors Silva, NHCS; Morais, ES; Freire, CSR; Freire, MG; Silvestre, AJD
nationality International
journal MOLECULES
author keywords triterpenic acids; ursolic acid; Eucalyptus globulus outer bark; hydrophobic deep eutectic solvents; menthol; thymol
keywords SUPERCRITICAL-FLUID EXTRACTION; CHOLINE CHLORIDE; URSOLIC ACID; BIOECONOMY; SELECTIVITY; ANTITUMOR; RESIDUES; FOREST
abstract Triterpenic acids (TTAs), known for their promising biological properties, can be found in different biomass sources and related by-products, such as Eucalyptus globulus bark, and have been extracted using organic volatile solvents such as dichloromethane. Recently, deep eutectic solvents (DES) have been identified as promising alternatives for the extraction of value-added compounds from biomass. In the present work, several hydrophobic DES were tested for the extraction of TTAs from E. globulus bark. Initial solubility studies revealed that DES based on menthol and thymol as the most promising solvents for these compounds given the highest solubilities obtained for ursolic acid (UA) at temperatures ranging from room temperature up to 90 degrees C. Accordingly, an eutectic mixture of menthol:thymol (1:2) was confirmed as the best candidate for the TTAs extraction from E. globulus outer bark, leading to extraction yields (weight of TTA per weight of biomass) at room temperature of 1.8 wt% for ursolic acid, 0.84 wt% for oleanolic acid and 0.30 wt% for betulinic acid. These values are significantly higher than those obtained with conventional organic solvents under similar conditions. The results obtained using these DES are promising for the recovery of TTAs for nutraceutical and pharmacological applications, while reinforcing the potential of DES as promising solvents to be applied in biorefinery processes.
publisher MDPI
year published 2020
volume 25
issue 1
digital object identifier (doi) 10.3390/molecules25010210
web of science category Biochemistry & Molecular Biology; Chemistry, Multidisciplinary
subject category Biochemistry & Molecular Biology; Chemistry
unique article identifier WOS:000513770000210
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journal impact factor 3.267
5 year journal impact factor 3.589
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