Edible coatings and the need for biodegradable polymers with focus on dairy products

Q4 Veterinary

Online Journal of Animal and Feed Research Pub Date : 2022-07-30 DOI:10.51227/ojafr.2022.23

Nikitha Shalom Richard

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引用次数: 0

Abstract

Natural polymers are non-toxic, affordable, and abundantly accessible; hence they're often used in edible coatings. Covering vegetables with edible coatings that include antimicrobials, browning inhibitors, and nutraceuticals is a unique way to increase their nutritional value. Natural polymers are non-toxic, affordable, and abundantly accessible; hence they're often used in edible coatings. Covering vegetables with edible coatings that include antimicrobials, browning inhibitors, and nutraceuticals is a unique way to increase their nutritional value. Most edible coatings employ non-toxic, inexpensive, readily accessible natural polymers. Using biodegradable synthetic polymers and liquid and solid lipids, nano systems may be built at room temperature. To minimise food waste, edible food packaging utilises high-quality, low-impact packaging materials. Dairy consumer goods are among the industries targeted by the attack. Polymer nanocomposites, a kind of nano reinforcement, may act as a small gas barrier by increasing the difficulty of passing through the material. To put it simply, we now have the ability to accurately estimate the shelf life of our products thanks to developments in packaging technology, as well as biodegradable packaging and several other advantages. Packaging nanotechnology applications are categorised by their principal function. In conclusion, biodegradable synthetic polymers and liquid and solid lipids may also be used to create nano systems at ambient temperature. It is argued that recent advances in the usage of nano systems such nanoparticles, nanotubes, composites, and emulsions, are reviewed critically in this study. For food preservation purposes, nano dispersions may be supported by polymers, although the main focus of this article was on providing information on nano systems and how they can be used in various food substrates. Keywords: Biodegradable, Dairy products, Edible coating, Food industry, Nanotechnology.

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食用涂料和对生物可降解聚合物的需求，重点是乳制品

天然聚合物是无毒的，负担得起的，并且大量可获得;因此，它们经常被用于食用涂料。在蔬菜上涂上可食用的涂层，其中包括抗菌剂、褐变抑制剂和营养药品，这是增加蔬菜营养价值的一种独特方式。天然聚合物是无毒的，负担得起的，并且大量可获得;因此，它们经常被用于食用涂料。在蔬菜上涂上可食用的涂层，其中包括抗菌剂、褐变抑制剂和营养药品，这是增加蔬菜营养价值的一种独特方式。大多数可食用涂料采用无毒、廉价、易得的天然聚合物。使用可生物降解的合成聚合物和液体和固体脂质，纳米系统可以在室温下构建。为了尽量减少食物浪费，食用食品包装采用高质量、低影响的包装材料。乳制品消费品是此次攻击的目标行业之一。聚合物纳米复合材料是一种纳米增强材料，它可以通过增加通过材料的难度来作为一个小的气体屏障。简而言之，由于包装技术的发展，以及可生物降解包装和其他一些优势，我们现在有能力准确估计产品的保质期。包装纳米技术应用按其主要功能分类。综上所述，生物可降解的合成聚合物和液体和固体脂质也可用于在室温下创建纳米系统。本文综述了纳米材料、纳米管、复合材料和乳液等纳米材料的最新研究进展。出于食品保存的目的，纳米分散体可以由聚合物支持，尽管本文的主要重点是提供纳米系统的信息以及它们如何用于各种食品基质。关键词:可生物降解，乳制品，食用涂料，食品工业，纳米技术

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来源期刊

Online Journal of Animal and Feed Research Veterinary-Veterinary (all)

CiteScore

0.90

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0.00%

发文量