活性包装
细菌纤维素
食品包装
保质期
食物腐败
食品科学
极限抗拉强度
化学
沸石咪唑盐骨架
纳米复合材料
纤维素
食物垃圾
食品工业
食品质量
细菌生长
食物系统
化学工程
材料科学
食品添加剂
基质(化学分析)
制浆造纸工业
脂质氧化
食品保存
功能性食品
肉类腐败
抗菌剂
作者
Xia Feng,Yongyuan Liang,Bohao Deng,Chong Zhang,Luyao Bian
摘要
ABSTRACT The development of sustainable and economical active food packaging remains a critical challenge for enhancing food quality and safety. This study presents an innovative strategy by utilising rice bran, an abundant agricultural waste product, to synthesise rice bran–derived bacterial cellulose (RBC) as a high‐value matrix for active food packaging. This matrix was reinforced with zeolitic imidazolate framework‐8 (ZIF‐8) to fabricate multifunctional nanocomposite films. Structural analyses confirmed the successful integration of ZIF‐8 into the RBC matrix via hydrogen bonding without disrupting its inherent crystalline lattice. The incorporation of ZIF‐8 significantly improved the physical and functional characteristics of the packaging. Specifically, the optimal formulation (0.2% ZIF‐8) enhanced tensile strength to 42.72 MPa and improved barrier properties against water vapour and oxygen. Notably, the film loaded with 0.1% ZIF‐8 exhibited remarkable antibacterial efficacy, achieving a 99.41% inhibition rate against Escherichia coli . During chilled pork preservation trials, the nanocomposite films effectively suppressed microbial proliferation, delayed lipid oxidation and minimised the accumulation of volatile spoilage compounds. These synergistic effects successfully extended the shelf life of the pork by 6 days, demonstrating the film's superior capacity to extend food shelf life and ensure microbiological safety. This work highlights the promising potential of valorising RBC as a sustainable and highly efficient platform for advanced active food packaging.
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