多路复用
纳米孔
纳米技术
分析物
材料科学
水污染物
地表水
污染物
污染
适配器(计算)
化学传感器
分子
电化学
环境化学
检出限
纳米传感器
化学
膜
水源
光学传感
组合化学
每个符号的零件数
饮用水净化
作者
Xiaofeng Lu,Dong Zhong,Qi An,Liting Kang,Na Fan,Junjie Cao,Renjie Li,Qianqian Cao,Yudong Zhou,Xiaoyu Du,Shuanghong Yan,Juan Li,Xiaolei Qu,Yuqin Wang
出处
期刊:ACS Nano
[American Chemical Society]
日期:2025-10-17
卷期号:19 (42): 37281-37295
被引量:4
标识
DOI:10.1021/acsnano.5c12164
摘要
Perfluoroalkyl and polyfluoroalkyl substances (PFASs) make up a large class of emerging chemical pollutants that have caused extensive contamination of global water sources. As the toxicity of PFAS becomes increasingly recognized, there is a growing demand for low-cost and rapid sensors capable of screening water samples for multiple PFAS species. However, most electrochemical and optical sensors can detect only one or two PFASs, despite the high structural diversity of these compounds in aquatic environments. Here, we report a single-molecule nanopore sensor that enables simultaneous detection of nine PFASs in a single measurement. By incorporating a β-cyclodextrin (β-CD) adapter into a mutant α-hemolysin (α-HL) nanopore, translocating PFAS molecules produce distinct current blockades that allow clear discrimination based on carbon chain lengths, hydrogen substitutions, and terminal functional groups. With assistance from a machine learning classifier, an overall identification accuracy of 95.83% is achieved. This strategy allows direct, label-free, and rapid discrimination of multiple PFASs in surface water samples at environmentally relevant concentrations as low as the microgram per liter level, without chemical labeling, separation, or enrichment. The successful demonstration of nanopore sensing in complex real-world matrices highlights its strong potential for practical, field-deployable environmental analysis.
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