Download This PaperConstruction of Γ-Fe2o3 Based Colorimetric Sensing Arrays Through the Phase Transformation Induced by Rare-Earth Doping for the Detection of Antibiotics in Drinking Water
24 Pages Posted: 10 Feb 2025
Abstract
In this study, Ce-doping Fe-based nanozymes were employed to construct a simple multichannel colorimetric sensor array for the identification and detection of quinolone antibiotics. The study demonstrates that Ce doping effectively induced a phase transformation from α-Fe2O3/Fe7(PO4)6 (Fe-P) to γ-Fe2O3/Fe7(PO4)6 composites (0.5-Ce/Fe-P) after a phosphorization treatment. This transformation led to enhanced peroxidase (POD)-like activity in 0.5-Ce/Fe-P compared to Fe-P, thanks to the excellent catalytic properties of γ-Fe2O3 and the porous nature of the composites. The proposed colorimetric sensor exhibited a low limit of detection (0.78 nM) and a wide linear range (0.05-2.5 μM and 200-650 μM) for norfloxacin (NOR). Furthermore, the study employed principal component analysis (PCA) and hierarchical clustering analysis (HCA) to successfully distinguish between three antibiotics, demonstrating the sensor array's ability to differentiate antibiotics. This study contributes to the food safety and environmental protection field by providing a novel tool for monitoring antibiotics in drinking water.
Keywords: Ce doping, Phase transformation, Colorimetric detection, Sensor array, Norfloxacin.
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