Facile Fabrication of PVA Nanofibers Decorated With Ratiometric Fluorescent Carbon Dots for Chlorpyrifos Recognition With Deep Learning
Weirui Fang, Xiaoyi Zhu, Xingyu Rong, Zhen Wang, Manjun Du, Shiyu Liu, KangJu Lee, Yaowen LiuABSTRACT
A portable and intelligent sensing platform was developed for the rapid detection of chlorpyrifos (CPS). A ratiometric fluorescent nanosensor, comprising biomass‐derived iron‐doped carbon dots (Fe‐CDs) as the probe and silver nanoclusters as the internal reference, was immobilized onto a polyvinyl alcohol (PVA) nanofiber membrane via electrospinning. The resulting sensor achieved a limit of detection (LOD) of 13.88 µmol/L for CPS and demonstrated excellent recoveries (98.52%–105.79%) in spiked cabbage samples. A deep learning model, integrated into a smartphone application, accurately quantified CPS by analyzing images of the sensor's visual response, showing a high correlation with actual concentrations ( R 2 = 0.991). This integrated system provides a simple, low‐cost, and reliable tool for real‐time food safety monitoring, successfully translating visual color changes into precise quantitative data.