Corn starch nanocomposite films reinforced with nanocellulose

Q2 Physics and Astronomy

Physical Sciences Reviews Pub Date : 2023-06-15 DOI:10.1515/psr-2022-0011

R. Syafiq, R. A. Ilyas, L. Rajeshkumar, F. Al-Oqla, Y. Nukman, M. Zuhri, A. Atiqah, S. M. K. Thiagamani, S. Bangar, C. Barile, Sapuan S.M.

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引用次数: 1

Abstract

Abstract The need for flexible food packaging has increased substantially in recent years around the world due to the unprecedented growth in food consumption. Due to low cost and ease of processing, petroleum-based synthetic polymer packaging materials are being predominantly used for food packaging these days. To avoid contributing to environmental problems caused by ecological risks, consumers have been searching for alternatives to plastic food packaging due to the fact that plastics cannot be recycled and are not biodegradable. Therefore, bioplastics made from corn starch, which are biodegradable, can be one solution to these issues. The starch’s amylopectin and amylase composition has a significant impact on the polysaccharide’s characteristics. Corn starch (CS) is utilized as a food source for humans and other animals, but it also has many other applications in industry. Corn starch, on the other hand, has a few issues that need to be addressed through some modifications. Although starch-based packaging is expensive, they create less waste overall, which helps in the reduction amount of plastic pollution. A variety of natural and synthetic polymers – including polysaccharide-based materials like Kappaphycus alvarezii seaweed, collagen, alginate, chitosan, zein, cellulose, gelatin, various amino acids and polymeric materials like acrylic acid, polybutylene (PB), polyacrylic acid, polyethylene (PE), polyvinyl chloride (PVC), polyvinyl alcohol (PVA), and polycaprolactone (PCL) – are used as starch modifiers to produce polymers with a starch base that are completely biodegradable. These biopolymers have the potential to replacing petroleum-based polymers in a variety of commercial and industrial settings. Besides, corn starch nanocomposite films reinforced with nanocellulose have been investigated as a potential eco-friendly packaging material. Consequently, the effects of nanocellulose content on the mechanical, thermal, and barrier properties of corn starch-based films will be discussed in this work.

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纳米纤维素增强玉米淀粉纳米复合膜

近年来，由于食品消费的空前增长，世界各地对软包装的需求大幅增加。由于低成本和易于加工，石油基合成聚合物包装材料目前主要用于食品包装。为了避免生态风险带来的环境问题，消费者一直在寻找塑料食品包装的替代品，因为塑料不能回收，也不能生物降解。因此，由玉米淀粉制成的生物塑料是可生物降解的，可以解决这些问题。淀粉的支链淀粉和淀粉酶组成对多糖的特性有重要影响。玉米淀粉(CS)被用作人类和其他动物的食物来源，但它在工业上也有许多其他应用。另一方面，玉米淀粉有一些问题需要通过一些修改来解决。虽然淀粉基包装价格昂贵，但它们产生的废物较少，这有助于减少塑料污染。各种天然和合成聚合物——包括以多糖为基础的材料，如Kappaphycus alvarezii海藻、胶原蛋白、海藻酸盐、壳聚糖、玉米蛋白、纤维素、明胶、各种氨基酸和聚合物材料，如丙烯酸、聚丁烯(PB)、聚丙烯酸、聚乙烯(PE)、聚氯乙烯(PVC)、聚乙烯醇(PVA)和聚己内酯(PCL)——被用作淀粉改性剂，以生产完全可生物降解的淀粉基聚合物。这些生物聚合物有可能在各种商业和工业环境中取代石油基聚合物。此外，纳米纤维素增强玉米淀粉纳米复合膜作为一种潜在的环保包装材料也得到了研究。因此，纳米纤维素含量对玉米淀粉基薄膜的机械、热学和阻隔性能的影响将在本工作中进行讨论。

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来源期刊

Physical Sciences Reviews MULTIDISCIPLINARY SCIENCES-

CiteScore

2.40

自引率

0.00%

发文量

173