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Development of a layered bacterial nanocellulose‐PHBV composite for food packaging

生物高聚物 食品包装 纳米纤维素 复合数 羟基烷酸 化学工程 材料科学 聚乙烯 甘油 聚酯纤维 聚丙烯 复合材料 涂层 化学 聚合物 有机化学 食品科学 纤维素 细菌 工程类 生物 遗传学
作者
Francisco A.G. Soares Silva,Mariana Matos,Fernando Dourado,Maria A.M. Reis,Pedro Branco,Maria de Fátima Tavares Poças,Miguel Gama
出处
期刊:Journal of the Science of Food and Agriculture [Wiley]
卷期号:103 (3): 1077-1087 被引量:28
标识
DOI:10.1002/jsfa.11839
摘要

Most of the current materials used in food packaging are synthetic and non-degradable, raising environmental issues derived from the accumulation of plastics in landfills/waterways. The food industry increasingly needs eco-friendly sustainable materials that meet food-packaging requirements. Bacterial nanocellulose (BNC), a biopolymer obtained by fermentation, offers very good mechanical properties and the ability to carry and deliver active substances. However, its water-vapor permeability is too high for food-packaging applications. In this work, a layered biodegradable composite based on BNC and polyhydroxyalkanoate (PHBV) was produced, attempting to improve its overall barrier properties. Polyhydroxyalkanoate is a biopolymer with high degree of hydrophobicity and biodegradability, and is also obtained by fermentation. Wet BNC membranes produced by static culture were plasticized by impregnation of solutions of either glycerol (BNCgly ) or polyethylene glycol (MW 600) (BNCPEG ). The plasticized BNC was then coated with PHBV solution dissolved in formic acid, and oven dried at 148 °C.Overall, PHBV coating on plasticized BNC reduced water vapor permeability significantly (from 0.990 to 0.032 g.μm.m-2 .day-1 .Pa-1 ) under 50% relative humidity. It increased the hydrophobicity (contact angle from 10-40° to 80-90°) but decreased the stiffness (from 3.1 GPa to 1.3 Gpa) of the composite.Overall, the mechanical and barrier properties of the layered composite obtained were considered suitable for food-packaging applications. The plasticizing (with glycerol or polyethylene glycol) of BNC significantly improved the mechanical performance and the PHBV coating reduced the water affinity (vapor and liquid state) on BNC. © 2022 Society of Chemical Industry.
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