ar-gameiro

Orange peels contain a considerable number of bioactive compounds such as carotenoids, that can be used as ingredients in high-value products. The aim of this study was to compare orange peel extracts obtained with different green solvents (vegetable oils, fatty acids, and deep eutectic solvents (DES)). In addition, the chemical characterization of a new hydrophobic DES formed by octanoic acid and l-proline (C8:Pro) was performed. The extracts were compared in terms of carotenoid extraction, antioxidant activity by three methods, color, and environmental impact. The results confirmed that the mixture of C8:Pro is a DES and showed the highest carotenoid extraction (46.01 µg/g) compared to hexane (39.28 µg/g). The antioxidant activity was also the highest in C8:Pro (2438.8 µM TE/mL). Finally, two assessment models were used to evaluate the greenness and sustainability of the proposed extractions. These results demonstrated the potential use of orange peels in the circular economy and industry.

Deep eutectic systems (DES) are a mixture of two or more components where at least one works as a hydrogen bond acceptor (HBA) and another as a hydrogen bond donor (HBD). DES most distinctive characteristic is the fact that the mixture possesses a lower melting point, when compared to the melting point of its individual components. These systems have emerged as a “greener alternative” to organic solvents, while also offering several advantages over other “green” solvents such as ionic liquids (IL). However, the number of studies concerning the real biodegradability and biocompatibility are scarce and the methodologies are scattered through different articles. Current state of the art provides several reports using different models, namely using prokaryotic and eukaryotic cells but also more complex models considering whole organisms, such as plants and animals, attempting to understand DES toxicity at different complexity levels. The currently used methodologies is very different among authors, thus the standardization is urgently needed. This review’s purpose is to summarize the available data about DES toxicity, biocompatibility and biodegradability, while also assembling the different methodologies used in an effort to pave the way so that standard guidelines for future research work are established.