Design and information interaction study of bio-based materials in the packaging field

IF 5.5 Q1 ENGINEERING, CHEMICAL Chemical Engineering Journal Advances Pub Date : 2024-11-15 DOI:10.1016/j.ceja.2024.100676

Ying Yao , Guo Cheng , Xuesong Xie

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Abstract

Based on the rapid and widespread application of fossil-based resources and global transportation, product packaging is crowding corners all around the world. Therefore, to meet modern needs, achieving a balance between intelligent interaction and the environmentally friendly sustainability and safety of materials has become an important consideration in contemporary packaging research. Given the environmental benefits of bio-based materials, this review aims to explore the utility of biomaterials in the packaging realm, particularly those derived from nature. By analyzing the characteristics of biomaterials, this review investigates the advantages and challenges of bio-based materials in packaging design, delves into the construction of their information interaction functions, and discusses their development potential in light of their renewable and degradable closed-loop properties. Meanwhile, from the expansion of material innovation, enhanced functionalities and interactive intelligence, scalability and cost efficiency, and cross-industry circular economy and collaboration, we offer some perspective in this review to provide theoretical insights for the sustainable development of intelligent packaging materials.

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包装领域生物基材料的设计和信息交互研究

基于化石资源的快速广泛应用和全球运输，产品包装挤满了世界各地的角落。因此，为满足现代需求，在智能互动与材料的环保可持续性和安全性之间实现平衡已成为当代包装研究的重要考虑因素。鉴于生物基材料对环境的益处，本综述旨在探讨生物材料在包装领域的实用性，尤其是那些从大自然中提取的生物材料。通过分析生物材料的特性，本综述研究了生物基材料在包装设计中的优势和挑战，深入探讨了其信息交互功能的构建，并根据其可再生和可降解的闭环特性讨论了其发展潜力。同时，本综述从材料创新、增强功能和交互智能、可扩展性和成本效益、跨行业循环经济和协作等方面进行拓展，为智能包装材料的可持续发展提供理论启示。

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