Article ID Journal Published Year Pages File Type
5130862 Analytica Chimica Acta 2017 8 Pages PDF
Abstract

•A simple and low cost biosensor was developed for detection of organophosphate pesticides.•AChE-Chitosan/Pd-Cu NWs/GCE was utilized as an effective sensing platform.•The biosensor displayed sensitive detection of malathion and the LOD was 1.5 ppt.

A highly sensitive acetylcholinesterase (AChE) electrochemical biosensor for the quantitative determination of organophosphate pesticides (OPs) in vegetables and fruits based on palladium-copper nanowires (Pd-Cu NWs) was reported. AChE immobilized on the modified electrode could catalyze hydrolysis of acetylthiocholine chloride (ATCl), generating an irreversible oxidation peak. When exposed to the OPs, the activity of the AChE was inhibited and the current significantly decreased. The detection mechanism is based on the inhibition of AChE. The Pd-Cu NWs not only provide a large active surface area (0.268 ± 0.01) cm2 for the immobilization of AChE, which was approximately 3.8 times higher than the bare glass carbon electrode, but also exhibit excellent electro-catalytic activity and remarkable electron mobility. The biosensor modified with Pd-Cu NWs displayed a good affinity to ATCl and catalyzed hydrolysis of ATCl, with a low Michaelis-Menten constant (KM) of 50.56 μM. Under optimized conditions, the AChE-Cs/Pd-Cu NWs/GCE biosensor detected malathion with wide linear ranges of 5-1000 ppt and 500-3000 ppb, and the low detection limit was 1.5 ppt (4.5 pM). In addition, the OPs biosensor has been applied to the analysis of malathion in commercial vegetable and fruit samples, with excellent recoveries in the range of 98.5%-113.5%. This work provides a simple, sensitive and effective platform for biosensors and exhibits future potential in practical application for the OPs assay.

Graphical abstractPalladium-copper nanowires were employed to construct a highly sensitive acetylcholinesterase electrochemical biosensor for the quantitative determination of organophosphate pesticides in vegetables and fruits.Download high-res image (143KB)Download full-size image

Related Topics
Physical Sciences and Engineering Chemistry Analytical Chemistry
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