过程(计算)
闪光灯(摄影)
计算机科学
计算生物学
生物
物理
操作系统
光学
作者
Yimin Mao,Peihua Ma,Tangyuan Li,He Liu,Xinpeng Zhao,Shufeng Liu,Xiaoxue Jia,Shaik O. Rahaman,Xizheng Wang,Minhua Zhao,Gang Chen,Hua Xie,Alexandra H. Brozena,Bin Zhou,Yaguang Luo,Rodrigo Tarté,Cheng‐I Wei,Qin Wang,Robert M. Briber,Liangbing Hu
标识
DOI:10.1038/s41467-024-47967-1
摘要
Abstract Maintaining food safety and quality is critical for public health and food security. Conventional food preservation methods, such as pasteurization and dehydration, often change the overall organoleptic quality of the food products. Herein, we demonstrate a method that affects only a thin surface layer of the food, using beef as a model. In this method, Joule heating is generated by applying high electric power to a carbon substrate in <1 s, which causes a transient increase of the substrate temperature to > ~2000 K. The beef surface in direct contact with the heating substrate is subjected to ultra-high temperature flash heating, leading to the formation of a microbe-inactivated, dehydrated layer of ~100 µm in thickness. Aerobic mesophilic bacteria, Enterobacteriaceae, yeast and mold on the treated samples are inactivated to a level below the detection limit and remained low during room temperature storage of 5 days. Meanwhile, the product quality, including visual appearance, texture, and nutrient level of the beef, remains mostly unchanged. In contrast, microorganisms grow rapidly on the untreated control samples, along with a rapid deterioration of the meat quality. This method might serve as a promising preservation technology for securing food safety and quality.
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