化学
光电流
极性(国际关系)
生物物理学
光电子学
纳米技术
溶剂极性
光电导性
分析化学(期刊)
生物系统
作者
Wenjie Zhang,Fei Tan,Wenxuan Guo,Qiqi Du,Bo Cui,Yishan Fang
标识
DOI:10.1021/acs.analchem.5c07450
摘要
triggers a unique photocurrent polarity switch from anodic to cathodic. Mechanistic studies reveal that this inversion stems from the encapsulation of the terminal alkyne group of TEPy by CB [7], which alters the electron transfer pathway between the complex and the bacteria. This SPI mechanism not only amplifies the detection signal but also effectively suppresses false-positive responses in complex matrices through polarity switching. Under optimized conditions, the biosensor exhibits excellent selectivity over competing bacteria and achieves a remarkably low detection limit of 2.76 CFU/mL. It also demonstrates high applicability in real food samples. Furthermore, molecular docking simulations provide insights into the assembly and sensing mechanisms. This work significantly mitigates interference issues inherent in conventional detection methods, offering a rapid, efficient, and accurate analytical platform for microbial detection in food and environmental monitoring.
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