Composite Films of Thermoplastic Starch and CaCl2 Extracted from Eggshells for Extending Food Shelf-Life

Jeovan A. Araujo, Y. J. Cortese, Marija Mojicevic, Margaret Brennan Fournet, Yuanyuan Chen
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引用次数: 1

Abstract

Calcium chloride (CaCl2) has been widely used to maintain the quality of fresh-cut fruits and vegetables because it stabilizes and strengthens the membrane system against fungal attacks. It is mainly applied via spray coating and dip coating techniques. This study explored a method of incorporating calcium chloride extracted from eggshells in a packaging material, thermoplastic starch (TPS), via a hot-melt extrusion process. The composites were characterized by FTIR, DSC, SEM-EDX and tensile testing. FTIR confirmed the chemical reactions between CaCl2 and TPS. DSC results showed a significant decrease in the heat of fusion by adding 20 wt% of CaCl2 content in TPS, indicating a drop in the degree of crystallinity. The Young’s modulus of TPS was not significantly affected by the incorporation of 10 wt% CaCl2 (P = 0.968), but reduced notably with the addition of 20 wt% CaCl2 (P = 0.05), indicating the plasticizer effect of the CaCl2. Physiochemical analysis of fresh-cut apple slices was assessed. Samples placed on the surface of the TPS/CaCl2 composites displayed less pH reduction, reduced antioxidant activity, more weight loss and increased reducing sugar compared to the samples placed on the surface of virgin TPS films. CaCl2 released from the TPS/CaCl2 films was measured and their antimicrobial activity was confirmed by bacterial inhibitory growth assessment. Fungal growth was observed on apple slices placed on virgin TPS film by day 21 while apple slices placed on TPS/CaCl2 20 wt% composites did not support any fungal growth for 28 days. In summary, TPS and eggshell-extracted CaCl2 showed the ability to maintain the quality of fresh-cut apples, and TPS/CaCl2 10 wt% composite could be a good option as a packaging material for fresh-cut fruits due to active antimicrobial activity and maintained Young’s modulus.
从蛋壳中提取热塑性淀粉和CaCl2复合膜以延长食品保质期
氯化钙(CaCl2)被广泛用于维持新鲜果蔬的品质,因为它能稳定和增强膜系统,抵抗真菌的侵袭。它主要通过喷涂和浸涂技术应用。本研究探索了一种通过热熔挤压工艺将蛋壳中提取的氯化钙掺入热塑性淀粉(TPS)包装材料的方法。通过FTIR、DSC、SEM-EDX和拉伸测试对复合材料进行了表征。FTIR证实了CaCl2与TPS之间的化学反应。DSC结果显示,在TPS中加入20 wt%的CaCl2含量,熔合热显著降低,表明结晶度下降。加入10 wt% CaCl2对TPS的杨氏模量影响不显著(P = 0.968),但加入20 wt% CaCl2显著降低(P = 0.05),说明CaCl2有增塑剂作用。对新鲜苹果切片进行了理化分析。与放置在原始TPS膜表面的样品相比,放置在TPS/CaCl2复合材料表面的样品显示出更少的pH降低,抗氧化活性降低,重量损失更多,还原糖增加。测定了TPS/CaCl2膜释放的CaCl2,并通过细菌抑制生长评价证实了其抑菌活性。第21天,将苹果片放在TPS薄膜上观察到真菌生长,而将苹果片放在TPS/CaCl2 20%复合材料上28天没有任何真菌生长。综上所述,TPS和蛋壳提取的CaCl2均能保持鲜切苹果的品质,而TPS/CaCl2 10 wt%复合材料具有良好的抗菌活性和保持杨氏模量的特性,可以作为鲜切水果的良好包装材料。
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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