水果质量保证中的乙烯控制:材料科学视角

IF 13.9 Q1 CHEMISTRY, MULTIDISCIPLINARY Aggregate (Hoboken, N.J.) Pub Date : 2024-04-23 DOI:10.1002/agt2.565
Yi Jiang, Zhanpeng Liu, Mohammad Peydayesh, Bin Zhang, Xiangze Jia, Qiang Huang
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引用次数: 0

摘要

水果腐烂造成的资源浪费正在全球迅速蔓延,威胁着相关从业人员的利益和消费者群体的健康,需要精确的解决方案。通过乙烯调节控制水果成熟是提供优质水果的重要策略之一。然而,由于制造成本高和性能缺陷,目前的乙烯调节材料仍难以发挥其应用潜力。本综述介绍了基于分子封装的乙烯控释催熟材料和基于氧化、光降解和吸附等机制的乙烯清除剂保鲜材料。我们从机理、性能、应用潜力和可持续性等方面对各种材料进行了讨论和分析。封装材料的乙烯释放行为取决于乙烯与材料的结合形式以及环境因素(湿度和温度)。乙烯清除剂的清除机制多种多样,但一般都需要多孔材料作为吸附载体。我们强调,由于软晶体多孔材料独特的结构特性,将其设计为高效乙烯吸附剂的机会很大。我们在本综述中总结了各种材料的实际特点和不足,以建立对应用于乙烯调节的水果质量保证材料的系统认识,并期待这些新材料的美好前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Ethylene control in fruit quality assurance: A material science perspective

The waste of resources associated with fruit decay is rapidly spreading globally, threatening the interests of relevant practitioners and the health of consumer groups, and demanding precise solutions. Controlling fruit ripening through ethylene regulation is one of the most important strategies for providing high-quality fruits. However, current materials for ethylene regulation still have difficulty realizing their application potential due to high manufacturing costs and performance deficiencies. In this review, the ethylene-controlled release materials for ripening based on molecular encapsulation and the ethylene scavengers for preservation based on mechanisms such as oxidation, photodegradation, and adsorption are presented. We discuss and analyze a wide range of materials in terms of mechanism, performance, potential of applicability, and sustainability. The ethylene release behavior of encapsulating materials depends on the form in which the ethylene binds to the material as well as on environmental factors (humidity and temperature). For ethylene scavengers, there are a variety of scavenging mechanisms, but they generally require porous materials as adsorption carriers. We highlight the great opportunity of designing soft crystalline porous materials as efficient ethylene adsorbent due to their unique structural properties. We present this review, including a summary of practical characteristics and deficiencies of various materials, to establish a systematic understanding of fruit quality assurance materials applied to ethylene regulation, anticipating a promising prospect for these new materials.

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CiteScore
17.40
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0.00%
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审稿时长
7 weeks
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