Recently, biopolymer-based structured oil has emerged to substitute saturated and trans-fats. Herein, the porous biopolymeric networks with the cellular structure were developed with cross-linked dialdehyde cellulose (DAC) and gelatin to prepare oleogels. The determination of aldehyde content in the DAC molecular chain revealed a high degree of oxidation of cellulose. The FTIR data showed the covalent cross-linking bond between the DAC and gelatin. The covalent cross-linking between DAC and gelatin promoted the composite aerogel (DG) to form a porous three-dimensional network structure with enhanced thermal stability, mechanical properties, and water stability. The DAC/gelatin composite aerogel with 5 wt% DAC (DG-5) exhibited the highest porosity (91.27 %) and lowest pore diameter (10.52 μm) with greater capillary force, resulting in a high oil absorption capacity of 11.24 g/g and oil holding capacity of 55.57 %. The DG oleogels containing 6 % thymol in the oil phase showed good antibacterial activities against Escherichia coli and Staphylococcus aureus for 24 h. This work provides a facile and promising strategy for developing oleogels by DAC/gelatin cross-linked conjugates as aerogel templates for oil structuring.
Keywords: Aerogel template; Dialdehyde cellulose; Gelatin; Oleogel; Porous structure; Schiff base cross-linking.
Copyright © 2022. Published by Elsevier B.V.