de Faria Emanuelle L P, Gomes Melissa V, Cláudio Ana Filipa M, Freire Carmen S R, Silvestre Armando J D, Freire Mara G
CICECO - Aveiro Institute of Materials, Chemistry Department, University of Aveiro, University Campus of Santiago, 3810-193, Aveiro, Portugal.
Biophys Rev. 2018 Jun;10(3):915-925. doi: 10.1007/s12551-017-0387-y. Epub 2018 Jan 2.
Due to the wide range of relevant biological activities and high commercial value of cynaropicrin, and aiming at developing cost-effective processes, aqueous solutions of ionic liquids (ILs) were investigated for the extraction and recovery of cynaropicrin from the leaves of Cynara cardunculus L. Both cationic (1-alkyl-3-methylimidazolium chloride) and anionic (cholinium carboxylate) surface-active ILs were investigated, as well as a wide range of conventional surfactants and molecular organic solvents, allowing us to conclude that aqueous solutions of cationic surface-active ILs display a better performance for the extraction of cynaropicrin. Operational conditions were optimized, leading to a cynaropicrin extraction yield of 3.73 wt%. The recycling of both the biomass and the solvent were further investigated to appraise the extraction media saturation and to achieve a higher cynaropicrin extraction yield (6.47 wt%). Finally, it was demonstrated that 65 wt% of the extracted cynaropicrin can be efficiently recovered by precipitation from the IL aqueous extract through the addition of water as anti-solvent, allowing us to put forward both the extraction and recovery processes of the target value-added compound from biomass followed by solvent recycling. This approach opens the door to the development of more sustainable processes using aqueous solutions of ILs instead of the volatile organic solvents commonly used in biomass processing.
由于洋蓟苦素具有广泛的相关生物活性和较高的商业价值,并且旨在开发具有成本效益的工艺,因此研究了离子液体(ILs)水溶液用于从菜蓟叶片中提取和回收洋蓟苦素。研究了阳离子型(1-烷基-3-甲基咪唑鎓氯化物)和阴离子型(羧酸胆碱)表面活性离子液体,以及多种传统表面活性剂和分子有机溶剂,由此我们得出结论,阳离子表面活性离子液体水溶液在提取洋蓟苦素方面表现出更好的性能。对操作条件进行了优化,洋蓟苦素的提取率达到了3.73 wt%。进一步研究了生物质和溶剂的循环利用,以评估提取介质的饱和度并实现更高的洋蓟苦素提取率(6.47 wt%)。最后,结果表明,通过加入水作为反溶剂,从离子液体水提取物中沉淀可有效回收65 wt%的提取洋蓟苦素,这使我们能够提出从生物质中提取和回收目标增值化合物并随后进行溶剂循环利用的工艺。这种方法为开发更可持续的工艺打开了大门,该工艺使用离子液体水溶液而非生物质加工中常用的挥发性有机溶剂。