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Simultaneous electrochemical detection of dimethyl bisphenol A and bisphenol A using a novel Pt@SWCNTs-MXene-rGO modified screen-printed sensor

Guangfei Qu, Yun Zhang, Junhong Zhou, Huimin Tang, Wei Ji, Zhoupeng Yan, Keheng Pan, Ping Ning

2023Chemosphere21 citationsDOIOpen Access PDF

Abstract

Since bisphenol A (BPA) and dimethyl bisphenol A (DM-BPA) are human endocrine disruptors (EDCs) with tiny potential differences (44 mV) and widespread applications, there is a lack of published reports on their simultaneous detection. Therefore, this study reports a novel electrochemical detection system capable of simultaneous direct detection of BPA and DM-BPA using screen-printed carbon electrodes (SPCE) as a sensing platform. To improve the electrochemical performance of the SPCE, the SPCE was modified by using a combination of Pt nanoparticles modified with single-walled carbon nanotubes (Pt@SWCNTs), MXene (Ti 3 C 2 ), and graphene oxide (GO). In addition, the GO in Pt@SWCNTs-MXene-GO was reduced to reduced graphene oxide (rGO) by the action of electric field (−1.2 V), which significantly improved the electrochemical properties of the composites and effectively solved the problem of dispersion of the modified materials on the electrode surface. Under optimal experimental conditions, Pt@SWCNTs-Ti 3 C 2 -rGO/SPCE exhibited a suitable detection range (0.006–7.4 μmol L −1 ) and low detection limits (2.8 and 3 nmol L −1 , S/N = 3) for the simultaneous detection of BPA (0.392 V vs. Ag/AgCl) and DM-BPA (0.436 V vs. Ag/AgCl)). Thus, this study provides new insights into detecting compounds with similar structures and slight potential differences. Finally, the developed sensor's reproducibility, stability, interference resistance and accuracy were demonstrated with satisfactory results.

Topics & Concepts

GrapheneBisphenol ADetection limitMaterials scienceElectrochemistryElectrodeOxideCarbon nanotubeElectrochemical gas sensorNanotechnologyChemical engineeringChemistryComposite materialChromatographyEpoxyMetallurgyPhysical chemistryEngineeringMXene and MAX Phase MaterialsAdvanced biosensing and bioanalysis techniquesGraphene research and applications