人体净化
生化工程
真菌毒素
食品安全
食品工业
食品技术
食品
风险分析(工程)
生物技术
计算机科学
关键控制点
纳米技术
食品加工
产品(数学)
建设性的
环境科学
新兴技术
等离子体
业务
质量(理念)
食品质量
农业
化学
作者
Qiaoyun Wei,Yue Wang,Lan Jiang,Jing Qian,Xiaowei Sheng,Shuang Deng,Jianhao Zhang,Jin Wang
标识
DOI:10.1111/1541-4337.70410
摘要
Fungal and mycotoxin contamination can occur during multiple stages of low-moisture-content (LMC) agri-food products production, processing, and storage, posing severe threats to global food safety and trade exchanges. Therefore, its effective decontamination is a critical measure for ensuring food safety and public health. In recent years, plasma technology, as a promising solution, has been widely applied in food and agricultural processing fields due to its advantages of low cost, simple operation, high efficiency, and minimal residue. This review outlines the key factors influencing the generation, migration, and interaction of cold plasma, including plasma excitation conditions, environmental conditions, and sample characteristics. Furthermore, it elucidates the efficacy and mechanisms of plasma treatment in inactivating fungi and degrading mycotoxins. The latest decontamination applications of plasma technology across diverse LMC agri-food products are comprehensively analyzed, alongside their impact on product quality properties. Synergistic approaches combining plasma with other technologies are also evaluated to highlight their comparative advantages. Finally, the current limitations of the technology are critically analyzed, and a forward-looking perspective is provided by outlining its prospects and proposing constructive suggestions. This review aims to assist researchers in comprehensively understanding the mechanisms of plasma technology and its recent advances in practical applications, highlighting its feasibility and prospects in the food processing field, thereby promoting its transition beyond laboratory constraints toward large-scale industrial implementation.
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