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Article Abstract
Cruciferous vegetables are rich in glucosinolates, which can be metabolized to produce the antitumor compound indole-3-carbinol (I3C). The conventional solvent extraction method for I3C is inefficient. To improve the extraction efficiency of I3C from cruciferous vegetables, we prepared a metal-organic framework (MOF) material (FeO@Zn-Al-LDH@B-D-MIL-100). First, FeO nanoparticles were introduced to layered double hydroxides by polymerization. Then, the MOF material was grown on the surface of the layered double hydroxide by co-precipitation and the layer-by-layer self-assembly method. This gave FeO@Zn-Al-LDH@B-D-MIL-100, which was characterized using a variety of techniques. The results showed that FeO@Zn-Al-LDH@B-D-MIL-100 had a double-layer porous structure, excellent superparamagnetism (11.54955 emu/g), a large specific surface area (174.04 m/g), and a pore volume (0.26 cm/g). The extraction conditions for I3C were optimized. Non-linear fitting of the static adsorption model showed that the adsorption was mainly monolayer. FeO@Zn-Al-LDH@B-D-MIL-100 had fast adsorption kinetics and could extract 95% of I3C in 45 min. It is superior to the traditional solvent extraction method because of its high enrichment efficiency in a short time and environmental friendliness. The successful preparation of the new nanomaterial will provide a new reference for the enrichment and extraction of the I3C industry.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9152278 | PMC |
| http://dx.doi.org/10.3389/fnut.2022.841257 | DOI Listing |
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