用于开发可生物降解包装材料的植物基壳聚糖

IF 6.2 Q1 CHEMISTRY, APPLIED
Adity Bahndral , Rafeeya Shams , Pintu Choudhary
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引用次数: 0

摘要

植物提取的材料和可食用薄膜已发展成为标准包装材料的可行替代品,实现了可持续发展和生态上可接受的替代品。壳聚糖是一种阳离子碳水化合物聚合物,从动物或海洋来源以及蘑菇或各种真菌等农业废弃物中提取,具有成膜性、机械强度、无毒性、生物降解性、可食性、紫外线阻隔能力、抗氧化活性和抗菌功能等优良特性,因此有可能成为新鲜农产品的包装/涂层材料。壳聚糖是通过甲壳素的脱乙酰化作用获得的。蘑菇农场产生的废料量占总产量的 5-20% 不等。丝状真菌的细胞结构富含甲壳素,为提取甲壳素提供了便捷的方法。与从甲壳类动物中提取的壳聚糖相比,真菌提取的壳聚糖具有理化特性可控的优势,包括脱乙酰度和分子量。这种多功能性使真菌壳聚糖适用于食品、制药和生物医学管理领域的各种用途。它可用于这些领域的不同目的。本综述主要强调从蘑菇和各种真菌来源中提取甲壳素,比较不同的提取方法和基于壳聚糖的材料制造技术。此外,本综述还讨论了壳聚糖的关键特性,这些特性使壳聚糖能够在食品工业中发挥高附加值功能。总之,植物基壳聚糖薄膜具有彻底改变包装行业的潜力,可作为传统材料的环保型替代品。接受这些进步将有助于建设一个更具韧性和可持续发展的地球,鼓励循环经济,并减少塑料垃圾的产生量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plant-based chitosan for the development of biodegradable packaging materials
Plant-derived materials and edible films have developed as viable substitutes for standard packaging materials, enabling sustainable and ecologically acceptable alternatives. Chitosan, a cationic carbohydrate polymer derived from animal or marine sources, as well as from agricultural waste such as mushrooms or various fungi possesses excellent properties such as film formation, mechanical strength, non-toxicity, biodegradability, edibility, UV-blocking ability, antioxidant activity, and antibacterial functionality, justifying its potential as packaging/coating material for fresh agricultural products. Chitosan is obtained through the deacetylation of chitin. The quantity of waste generated in a mushroom farm varies from 5–20 % of the total yielding quantity. Filamentous fungi's cellular structure, which is rich in chitin, provides a convenient method for chitin extraction. Fungal-derived chitosan offers the advantage of controllable physicochemical characteristics, including degree of deacetylation and molecular weight, compared to chitosan obtained from crustaceans. This versatility makes fungal chitosan suitable for various utilizations in food, pharmaceutical, and biomedical management. It can be utilised for different purposes in these fields. This review primarily emphasizes the extraction of chitin from mushrooms and various fungal sources, comparing different extraction methods and chitosan-based materials fabrication techniques. Additionally, it discusses the crucial characteristics of chitosan that make it convenient for high value-added functions in the food industry. To sum up, plant-based chitosan films have the potential to completely transform the packaging sector by providing environmentally friendly substitutes for traditional materials. Accepting these advances will help build a more resilient and sustainable earth, encourage the circular economy, and reduce the amount of plastic trash produced.
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CiteScore
8.70
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