Effects of fatty acid esters on mechanical, thermal, microbial, and moisture barrier properties of carboxymethyl cellulose-based edible films

IF 6.2 Q1 CHEMISTRY, APPLIED
Sohini Mukherjee , Avery Sengupta , Subham Preetam , Tanmoy Das , Tanima Bhattacharya , Nanasaheb Thorat
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Abstract

Fatty acid esters being biodegradable and environment friendly has been a sought-after class of molecule for various food grade applications. This work involves the incorporation of fatty acid esters namely cetyl-caprylate and cetyl-caprate in edible Carboxymethyl cellulose -based films. The esters were enzymatically synthesized by esterification of caprylic acid and capric acid respectively with cetyl alcohol at a molar ratio of 1:1, using Candida antarctica lipase B which was immobilized (10 % w/w) at 65 °C. Carboxymethyl cellulose films were prepared. To it, glycerol and by emulsification, cetyl-caprylate or cetyl-caprate esters were amalgamated. Film characterizations involved analysis of surface morphology, mechanical properties, and thermal properties. It was further characterized by X-Ray diffraction analysis, water vapor permeability, and moisture uptake. Barrier property carboxymethyl cellulose films showed significant improvement due to the incorporation of cetyl-caprylate or cetyl-caprate esters. However, when the film's melting point was measured, it was seen that glycerol influenced the thermal properties more prominently than cetyl-caprylate and cetyl-caprate esters. Thus, the addition of an optimized amount of glycerol and cetyl-caprylate or cetyl-caprate esters to the carboxymethyl cellulose films is required for improved mechanical strength and better thermal properties. Further, an antimicrobial well diffusion assay of both the esters established the antimicrobial property of the same, which thereby recommends the addition of the wax esters even more.

脂肪酸酯对羧甲基纤维素基食用薄膜的机械、热、微生物和防潮性能的影响
脂肪酸酯具有生物降解性和环境友好性,一直是各种食品级应用中炙手可热的一类分子。这项工作涉及将脂肪酸酯(即十六烷基辛酸酯和十六烷基癸酸酯)添加到基于羧甲基纤维素的可食用薄膜中。这些酯类是利用固定化(10 % w/w)的白色念珠菌脂肪酶 B,在 65 °C 下通过将辛酸和癸酸分别与十六烷醇以 1:1 的摩尔比进行酯化而酶解合成的。制备羧甲基纤维素薄膜。将甘油和十六烷基辛酸酯或十六烷基癸酸酯通过乳化作用混合在一起。薄膜表征包括表面形态、机械性能和热性能分析。此外,还通过 X 射线衍射分析、水蒸气渗透性和吸湿性对薄膜进行了表征。由于加入了十六烷基辛酸酯或十六烷基癸酸酯,羧甲基纤维素薄膜的阻隔性能得到了显著改善。不过,在测量薄膜的熔点时,我们发现甘油对热性能的影响比辛酸十六烷基酯和癸酸十六烷基酯更明显。因此,需要在羧甲基纤维素薄膜中添加一定量的甘油和十六烷基辛酸酯或十六烷基癸酸酯,以提高机械强度和热性能。此外,对这两种酯进行的抗菌井扩散试验也证实了它们的抗菌性能,因此更建议添加蜡酯。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
8.70
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