MXenes公司
材料科学
纳米传感器
检出限
纳米技术
电化学气体传感器
沸石咪唑盐骨架
分析物
导电体
纳米复合材料
咪唑酯
限制
线性范围
食品工业
食品安全
电位传感器
多孔性
合理设计
食品包装
选择性
灵敏度(控制系统)
作者
Ziliang Wan,Zulv Huang,Tianying Peng,Saiwen Liu,Jin Zhang,Chao Chen
标识
DOI:10.1016/j.lwt.2025.118765
摘要
The sensitive detection of trace food contaminants is imperative for food safety. This work reports the rational design of a poly (ionic liquid) bromide@zeolitic imidazolate framework-8/MXenes (PIL-Br@ZIF-8/MXenes) nanocomposite, in which a ZIF-8 core is functionalized with a poly (ionic liquid) shell and then assembled with MXenes into a 3D conductive network. This architecture leverages the synergistic properties of its components: the porous ZIF-8 provides superior molecular load capacity, the MXenes offer exceptional electrical conductivity and additional active sites, and the PIL-Br enhances ion transport, thereby significantly improving the electrode's sensitivity and selectivity. The developed sensor demonstrates excellent performance for 4-aminophenol detection across five diverse food matrices, with a broad linear range (0.5–75 μM) and an ultralow limit of detection (2.822 nM). Our study provides a novel and effective strategy for fabricating advanced sensing platforms for food safety monitoring. • An electrochemical sensor for the detection of 4-aminophenol in food residues was developed. • The sensor has high sensitivity, good selectivity and anti-jamming ability. • The sensor was used for the detection of 9 food samples. • The practicability of the UV–Vis method was verified in the detection of complex food samples.
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