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W4313388988 endingPage "347" @default.
W4313388988 startingPage "347" @default.
W4313388988 abstract "Immobilizing natural antioxidant and biologically active molecules in layered double hydroxides (LDHs) is an excellent method to retain and release these substances in a controlled manner, as well as protect them from thermal and photochemical degradation. Herein, we describe the preparation of host-guest systems based on LDHs and rosmarinic and glycyrrhetinic acids, two molecules obtained from the extraction of herbs and licorice root, respectively, with antioxidant, antimicrobial, and anti-inflammatory properties. Intercalation between the lamellae of the mono-deprotonated anions of rosmarinic and glycyrrhetinic acid (RA and GA), alone or in the presence of an alkyl surfactant, allows for readily dispersible systems in biobased polymer matrices such as poly(lactic acid) (PLA), poly(butylene succinate) (PBS), and a 60/40 wt./wt. PLA/PBS blend. The composites based on the PLA/PBS blend showed better interphase compatibility than the neat blend, correlated with increased adhesion at the interface and a decreased dispersed phase size. In addition, we proved that the active species migrate slowly from thin films of the composite materials in a hydroalcoholic solvent, confirming the optimization of the release process. Finally, both host-guest systems and polymeric composites showed antioxidant capacity and, in the case of the PLA composite containing LDH-RA, excellent inhibitory capacity against E. coli and S. aureus." @default.
W4313388988 created "2023-01-06" @default.
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W4313388988 date "2023-01-01" @default.
W4313388988 modified "2023-09-25" @default.
W4313388988 title "Rosmarinic and Glycyrrhetinic Acid-Modified Layered Double Hydroxides as Functional Additives for Poly(Lactic Acid)/Poly(Butylene Succinate) Blends" @default.
W4313388988 cites W1972426232 @default.
W4313388988 cites W1975920555 @default.
W4313388988 cites W1981502211 @default.
W4313388988 cites W1988284899 @default.
W4313388988 cites W1997368526 @default.
W4313388988 cites W2001681439 @default.
W4313388988 cites W2006022670 @default.
W4313388988 cites W2009722494 @default.
W4313388988 cites W2011145153 @default.
W4313388988 cites W2015719602 @default.
W4313388988 cites W2025216592 @default.
W4313388988 cites W2029997640 @default.
W4313388988 cites W2041362092 @default.
W4313388988 cites W2049588778 @default.
W4313388988 cites W2053290896 @default.
W4313388988 cites W2060905942 @default.
W4313388988 cites W2063766525 @default.
W4313388988 cites W2068634129 @default.
W4313388988 cites W2068739980 @default.
W4313388988 cites W2076802870 @default.
W4313388988 cites W2087087192 @default.
W4313388988 cites W2094070443 @default.
W4313388988 cites W2099509921 @default.
W4313388988 cites W2104919108 @default.
W4313388988 cites W2113546963 @default.
W4313388988 cites W2134738779 @default.
W4313388988 cites W2155546374 @default.
W4313388988 cites W2288986565 @default.
W4313388988 cites W2512103657 @default.
W4313388988 cites W2557013195 @default.
W4313388988 cites W2750765534 @default.
W4313388988 cites W2769188897 @default.
W4313388988 cites W2775032929 @default.
W4313388988 cites W2777516854 @default.
W4313388988 cites W2780394671 @default.
W4313388988 cites W2890924327 @default.
W4313388988 cites W2904037476 @default.
W4313388988 cites W2944653119 @default.
W4313388988 cites W2946934338 @default.
W4313388988 cites W2956443890 @default.
W4313388988 cites W2964279533 @default.
W4313388988 cites W2964918774 @default.
W4313388988 cites W2965564373 @default.
W4313388988 cites W2984951574 @default.
W4313388988 cites W2990464462 @default.
W4313388988 cites W2991847128 @default.
W4313388988 cites W2993844411 @default.
W4313388988 cites W3011017205 @default.
W4313388988 cites W3016820085 @default.
W4313388988 cites W3022743748 @default.
W4313388988 cites W3034482391 @default.
W4313388988 cites W3043624151 @default.
W4313388988 cites W3045573935 @default.
W4313388988 cites W3080300823 @default.
W4313388988 cites W3087477400 @default.
W4313388988 cites W3087814775 @default.
W4313388988 cites W3092755311 @default.
W4313388988 cites W3096905319 @default.
W4313388988 cites W3115938974 @default.
W4313388988 cites W3199061891 @default.
W4313388988 cites W3204625380 @default.
W4313388988 cites W3205528517 @default.
W4313388988 cites W3210254141 @default.
W4313388988 cites W4281760505 @default.
W4313388988 cites W4281775732 @default.
W4313388988 cites W4284976506 @default.
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W4313388988 doi "https://doi.org/10.3390/molecules28010347" @default.
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