用于食品包装的可生物降解 Nypa fruticans(聂巴)淀粉-PVA 生物复合薄膜

Mae Ann A. Cu, Jessie T. Gento, Janeca L. Lagrimas, Flyndon Mark S. Dagalea, K. M. C. Lim
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摘要

淀粉基薄膜因其生物降解性、可再生性以及与其他生物聚合物的混合性而备受关注,有望成为合成包装的替代品。本研究旨在补充大量文献,推动淀粉(Nypa fruticans)新来源与 PVA 和增塑剂的结合,以提高生物复合膜的性能。我们从含水量、溶解性、水蒸气渗透性、拉伸强度、断裂伸长率和透明度等方面分析了薄膜的理化和食品包装特性。利用傅立叶变换红外光谱分析了官能团的特征,并定量分析了在三种条件下包装的腻子样品的重量损失、感官评价和保质期。 结果表明,生物膜具有两倍的断裂伸长率、良好的光阻隔性和低水蒸气渗透性等包装食品保鲜特性。傅立叶变换红外光谱显示了淀粉和 PVA 中羟基(OH)的宽吸收带,以及代表淀粉葡萄糖单元的 C-O-C 基团的存在。食品包装分析表明,聂帕淀粉生物复合膜作为食品和包装行业更广泛应用的原型,具有很高的效率。
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Biodegradable Nypa fruticans (Nipa) Starch-PVA Biocomposite Films for Food Packaging
Starch-based films have been highlighted with its biodegradability, renewable, and amalgamation with other biopolymers as an intended substitute to synthetic packaging. This study aims to add to the plethora of literature on advancing a novel source of starch (Nypa fruticans) in combination with PVA and plasticizers to enhance the properties of the biocomposite film. The film’s physicochemical and food packaging properties were analyzed in terms of their water content, solubility, water vapor permeability, tensile strength, elongation at break, and transparency. The functional groups were characterized using FTIR and quantitatively analyzed the puto samples packaged in three conditions for their weight loss, sensory evaluation, and shelf life.  The results presented the biofilm with twice the elongation at break, good light barrier property, and low water vapor permeability characteristic of a packaging’s food preservation. The FTIR spectra showed the wide absorption band of the hydroxyl groups (OH) in starch and PVA and the presence of the C-O-C group representing the glucose units of starch. The food packaging analysis showed the efficiency of nipa starch biocomposite film as a prototype for a wider application in the food and packaging industry.
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