期刊
INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES
卷 243, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.ijbiomac.2023.125065
关键词
Antibacterial effect; Bilayer films; Freshness monitoring
The development of real-time and convenient meat freshness indication technology is crucial for ensuring food safety. A novel antibacterial visualized intelligent film was designed using layer-by-layer assembly method, which showed excellent hydrophobicity, color stability, water barrier properties, mechanical performance, and antibacterial properties. The film can perceive and visualize the antibacterial effect through color changes, and there is a good correlation between the color changes and the total viable count of pork. This multifunctional film has great potential for food preservation and freshness monitoring.
The development of real-time and convenient meat freshness indication technology is crucial to ensure food safety. A novel antibacterial visualized intelligent film was designed based on polyvinyl alcohol (PA), sodium alginate (SA), zein (ZN), chitosan (CS), alizarin (AL) and vanillin (VA) using layer-by-layer assembly (LBL) method for real-time and in situ monitoring of pork freshness. The fabricated film had various advantageous properties, including an excellent hydrophobicity with a water contact angle (WCA) of 91.59 degrees, improved color stability, excellent water barrier properties and increased mechanical performance (TS = 42.86 MPa). The fabricated film also demonstrated effective antibacterial properties with a bacteriostatic circle diameter of 13.6 mm for Escherichia coli. Moreover, the film can perceive and visualize the antibacterial effect through color changes, enabling dynamic visual monitoring of the antibacterial effect. A good correlation (R2 = 0.9188) be-tween the color changes (& UDelta;E) and total viable count (TVC) of pork was documented. Conclusively, fabricated multifunctional film improves the accuracy and versatility of freshness indication and had great potential for food preservation and freshness monitoring. The outcomes of this research provides a new perspective for the design and development of multifunctional intelligent films.
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