Voltammetric behavior of mycotoxin zearalenone at a single walled carbon nanotube screen-printed electrode
Literature Information
Publication Date
2019-08-05
DOI
10.1039/C9AY01400D
Impact Factor
2.896
Authors
Abd-Elgawad Radi, Alsayed Eissa, Tarek Wahdan
View Original
Abstract
Zearalenone (ZEA) is a mycotoxin produced by a range of Fusarium fungi that infect cereals. ZEA may accumulate in cereals before the time of harvest. This paper describes the electrochemical behavior of zearalenone (ZEA) at a single-walled carbon nanotube screen-printed electrode (SWCNT-SPCE) using cyclic voltammetry (CV), differential pulse voltammetry (DPV) and electrochemical impedance spectroscopy (EIS). A single irreversible oxidation peak was observed. The DPV peak current of ZEA at a SWCNT-SPCE was noticeably enhanced due to ZEA adsorption on the electrode surface. Interestingly, the electrode showed no surface fouling by the oxidation products of ZEA and the repeated use of the electrode is feasible. The electrodeposited film was examined in an Fe(CN)63−/4− redox probe using CV and EIS measurements. A differential pulse adsorptive stripping voltammetric (DPASV) method for the determination of ZEA was developed. Under the optimized conditions, the anodic peak current of ZEA varies linearly with the ZEA concentration in the range 2.5 × 10−8 − 1.0 × 10−6 M with a detection limit (LOD) of 5.0 × 10−9 M. The method was applied for the quantitative analysis of ZEA in cornflake samples.
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Source Journal
Analytical Methods
CiteScore:
5.1
Self-citation Rate:
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Analytical Methods welcomes early applications of new analytical and bioanalytical methods and technology demonstrating the potential for societal impact. We require that methods and technology reported in the journal are sufficiently innovative, robust, accurate, and compared to other available methods for the intended application. Developments with interdisciplinary approaches are particularly welcome. Systems should be proven with suitably complex and analytically challenging samples. We encourage developments within, but not limited to, the following technologies and applications: global health, point-of-care and molecular diagnostics biosensors and bioengineering drug development and pharmaceutical analysis applied microfluidics and nanotechnology omics studies, such as proteomics, metabolomics or glycomics environmental, agricultural and food science neuroscience biochemical and clinical analysis forensic analysis industrial process and method development
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