AI Article Synopsis
- Nanotechnology, specifically microemulsion (ME) techniques, is being explored for the efficient extraction of lutein from marigold petals, showcasing its potential in processing agricultural by-products.
- The study found that the type of surfactant used significantly affects the formation and efficiency of the microemulsions, with the best results coming from a combination of sucrose monopalmitate and 1-propanol.
- Results indicated that the size of the droplets and their stability, based on various surfactant combinations, enhance the extraction capabilities compared to traditional solvent methods, emphasizing nanotech's promise for bio-compound extraction.
Article Abstract
Nanotechnology has high potential in processing of industrial crops and by-products in order to extract valuable biological active compounds. The present study endeavored to take advantage of nanotech approach ( microemulsion, ME), as a novel green technique, for lutein extraction from marigold () as an industrial crop. The pseudo-ternary phase diagrams confirmed the effect of surfactant type on the formation of mono-phasic lutein MEs. The combination of sucrose monopalmitate:1-poropanol (1:5) showed the highest efficiency in the presence of marigold petal powder (MPP, 18%) and water (42%). In addition, the efficiency of primitive MEs (without co-surfactants) was outstandingly increased as MPP was moistened by co-surfactants. Furthermore, different MEs resulted in various droplet size (14-250nm), PDI (0.05-0.32) and zeta potential (-1.96 to -38.50 mV). These findings revealed the outstanding importance of the surfactants and co-surfactants and their ratio on the extraction capability of MEs. These findings also proved the capability of microemulsion technique (MET) as a potential alternative to conventional solvent with possible applicability for extraction of lutein and other industrial plant based bio-compounds.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6488751 | PMC |
| http://dx.doi.org/10.1016/j.heliyon.2019.e01572 | DOI Listing |
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