Engineering crystal network of supramolecular Oleogel via kinetical regulation for improved lutein bioaccessibility.

This study presented an approach for controlling supramolecular oleogel crystal network by regulating kinetical factors - specifically, a combination of cooling temperature and aging period. Results indicated that only under long aging period, supramolecular oleogels prepared at different cooling temperature exhibited distinct crystal morphology compared to those under short aging period. The physicochemical properties of oleogels were affected by different crystal networks. Therefore, further research on oleogels under longed aging was explored. For lutein encapsulation, it was observed that supramolecular oleogels with denser crystal network exhibited higher lutein bioaccessibility. This was probably because the denser crystal network providing a solid physical barrier that effectively protected lutein unaffected by gastric acid degradation. Additionally, the micellar capacity was also enhanced to accommodate lutein due to release of long chain fatty acid from the gelator glycerol monostearate (GMS). Collectively, kinetical factors regulation facilitated rational design of oleogels for delivery of lipid-soluble bioactive compounds.