以马铃薯淀粉-脂质-蛋白质三元配合物为基础的可完全生物降解食用包装箔

Macromol Pub Date : 2023-10-19 DOI:10.3390/macromol3040041
Agnieszka Folentarska, Anna Kulakowska, Volodymyr Pavlyuk, Magdalena Krystyjan, Piotr Tomasik, Wojciech Ciesielski
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引用次数: 0

摘要

用马铃薯淀粉、鸡蛋白蛋白和硬脂酸或油酸制备了完全可生物降解的铝箔。油酸制备的箔具有更高的抗拉强度、相对伸长率、热稳定性和更均匀的宏观结构。用硬脂酸制备的薄膜结晶度比油酸制备的薄膜结晶度高。箔的功能特性可以通过其组分的一系列混合来调节。同时混合淀粉(10重量份5%的凝胶)、白蛋白(1重量份由1 g白蛋白溶于7 mL水中组成的液体)和硬脂酸(5重量份粉末),可获得最高的抗拉强度(64.91 MPa/mm)。不管制备方法如何,箔片都是白色的,带有绿黄色的阴影。ATR-FTIR光谱分析表明,薄膜的宏观结构是三者相互作用的结果。
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Fully Biodegradable Edible Packaging Foils on the Basis of Potato Starch–Lipid–Protein Ternary Complexes
Fully biodegradable foils were prepared from potato starch, egg albumin, and either stearic or oleic acid. Foils prepared with oleic acid have higher tensile strength, relative elongation, thermal stability, and a more uniform macrostructure. Foils produced with stearic acid were characterized by a higher index of crystallinity than foils made with oleic acid. Functional properties of the foils can be modulated involving a sequence of blending of their components. The simultaneous blending of starch (10 weight parts of 5% aq. gel), albumin (1 weight part of liquid composed of 1 g of albumin in 7 mL of water), and stearic acid (5 weight parts of powder) provided the foil with the highest tensile strength (64.91 MPa/mm). Independently of the method of preparation, foils were white with a greenish-yellow shade. Analysis of the ATR-FTIR spectra showed that the macrostructure of the foils is built involving interactions between all three components.
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