Litcius/Paper detail

Ratiometric Strategy for Electrochemical Sensing of Carbaryl Residue in Water and Vegetable Samples

Min Zhang, Zeyuan Zhang, Yanjing Yang, Yi Zhang, Yufei Wang, Xinyi Chen

2020Sensors18 citationsDOIOpen Access PDF

Abstract

Accurate analysis of pesticide residue in real samples is essential for food safety and environmental protection. However, a traditional electrochemical sensor based on single-signal output is easily affected by background noise, environmental conditions, electrode diversity, and a complex matrix of samples, leading to extremely low accuracy. Hence, in this paper, a ratiometric strategy based on dual-signal output was adopted to build inner correction for sensing of widely-used carbaryl (CBL) for the first time. By comparison, Nile blue A (NB) was selected as reference probe, due to its well-defined peak, few effects on the target peak of CBL, and excellent stability. The effects of a derivatization method, technique mode, and pH were also investigated. Then the performance of the proposed ratiometric sensor was assessed in terms of three aspects including the elimination of system noise, electrode deviation and matrix effect. Compared with traditional single-signal sensor, the ratiometric sensor showed a much better linear correlation coefficient (r > 0.99), reproducibility (RSD < 10%), and limit of detection (LOD = 1.0 μM). The results indicated the introduction of proper reference probe could ensure the interdependence of target and reference signal on the same sensing environment, thus inner correction was fulfilled, which provided a promising tool for accurate analysis.

Topics & Concepts

Detection limitReproducibilityCarbarylCorrelation coefficientElectrodeSIGNAL (programming language)Pesticide residueAnalytical Chemistry (journal)Electrochemical gas sensorChemistryComputer scienceElectrochemistryPesticideChromatographyAgronomyProgramming languageBiologyMachine learningPhysical chemistryElectrochemical Analysis and ApplicationsElectrochemical sensors and biosensorsAnalytical Chemistry and Sensors