Electrochemical determination of Picoxystrobin (cas 117428-22-5) on boron-doped diamond electrode: Square-wave voltammetry versus BIA-multiple pulse amperometry
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Add time:07/19/2019 Source:sciencedirect.com
This article reports and compares the performance of two new electrochemical methods for the determination of Picoxystrobin (cas 117428-22-5) (a strobilurin-class fungicide). The methods were square-wave voltammetry (SWV) and batch-injection analysis (BIA) with multiple-pulse amperometric detection, both employing boron-doped diamond (BDD) electrode, which was cathodically treated to enhance the electrochemical activity for picoxystrobin. The SWV method presented higher sensitivity with lower detection (LOD of 0.2 μmol L− 1 or 0.07 mg L− 1) and quantification limits (LOQ of 0.7 μmol L− 1 or 0.25 mg L− 1) in comparison with the BIA amperometric method (LOD of 1.6 μmol L− 1 or 0.6 mg L− 1 and LOQ of 5.3 μmol L− 1 or 2.0 mg L− 1). However, the BIA-amperometric method provided wider linear range (from 5.3 to 100.0 μmol L− 1) in comparison with the SWV method (from 0.7 to 20.0 μmol L− 1) and higher analytical frequency rate (108 measurements h− 1). Interference of other strobilurin compounds was evaluated and the presence of trifluoxystrobin and fluoxystrobin (up to 3-fold excess) affected the SWV determination of picoxystrobin. The amperometric method undergoes interference from the all of the tested strobilurins but a simple approach, based on multiple-pulse amperometry, can indicate the presence of some of the potential interfering species. Hence, either SWV or BIA-multiple pulse amperometry can be applied for picoxystrobin depending on analyte concentration, presence of interfering species, and required analytical frequency.
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