Designing Plant-Based Smart Food Packaging Solutions for Prolonging Consumable Life of Perishable Foods

Marzieh Baneshi , Alberta N.A. Aryee , Marcia English , Martin Mkandawire
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Abstract

Concerns about the environmental and health impacts of plastics have driven the search for alternatives to petroleum-based food packaging materials. Simultaneously, the food packaging industry is making rapid progress in developing smart packaging technologies that extend the shelf life and freshness of perishable foods. Among the alternatives, plant-based packaging materials are gaining prominence because of their high environmental, health, and economical properties. However, the advancement in smart packing technologies has mainly involved petroleum-based plastics. Consequently, it is imminent that these smart technologies should be geared toward emerging plant-based packing materials. Hence, this perspective article explores the potential, opportunities, and challenges in designing smart packing materials using plant-based materials like protein, cellophane, and other bio-polymeric plastics. Specifically, we explore how the plant-based platform for smart food packing for prolonging the consumable life of perishable food products can be achieved without losing the desirable properties exhibited by petroleum-based plastic platforms.

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设计基于植物的智能食品包装解决方案,延长易腐食品的食用期限
对塑料对环境和健康影响的担忧促使人们寻找石油食品包装材料的替代品。与此同时,食品包装行业在开发延长易腐食品保质期和新鲜度的智能包装技术方面也取得了快速进展。在这些替代品中,植物基包装材料因其环保、健康和经济的特性而日益受到重视。然而,智能包装技术的发展主要涉及石油基塑料。因此,将这些智能技术应用于新兴的植物基包装材料迫在眉睫。因此,本视角文章探讨了使用蛋白质、玻璃纸和其他生物聚合塑料等植物基材料设计智能包装材料的潜力、机遇和挑战。具体而言,我们将探讨如何在不失去石油基塑料平台所表现出的理想特性的情况下,利用植物基平台设计智能食品包装,以延长易腐食品的食用寿命。
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来源期刊
Food chemistry advances
Food chemistry advances Analytical Chemistry, Organic Chemistry, Chemistry (General), Molecular Biology
CiteScore
1.90
自引率
0.00%
发文量
0
审稿时长
99 days
期刊最新文献
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