Carbon screen-printed electrodes modified with SiO2-CuO-glucose oxidase film for toxicity assessment using bacteria as indicator systems

IF 2.7 3区化学 Q2 CHEMISTRY, ANALYTICAL

Electroanalysis Pub Date : 2024-03-08 DOI:10.1002/elan.202300404

Marko Kuznetsov, Oksana Tananaiko, Michael Gelinsky, Max von Witzleben, David Kilian, Anastasia Lunyo, Vita Saska, Katerina Dzhihirei, Vladyslav Lisnyak, Liudmyla Grischenko, Serhiy Kondratenko, Liudmyla Rieznichenko, Tamara Gruzina, Svitlana Dybkova

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引用次数: 0

Abstract

A portable voltammetric sensor for toxicity assessment was developed based on a screen-printed carbon electrode modified with SiO₂-CuO-glucose oxidase (GOx) film. The method is based on the detection of the metabolic activity of E. coli towards glucose as an indicator systems in the presence of antiseptic drugs as model toxic compounds. CuO particles exhibited catalytic activity toward hydrogen peroxide produced by the GOx-induced oxidation of glucose. A well-defined reduction peak was registered at E=−0.50 V (vs. Ag/AgCl). The metabolism of glucose by E. coli resulted in a decrease in analytical signal of glucose with the increasing bacteria content in the range of 0.8×10⁹–5.0×10⁹ CFU mL⁻¹ with a calculated limit of detection (LOD) of 0.59×10⁹ CFU mL⁻¹. To evaluate the effect of antiseptics the biosensor was tested in E. coli solution with chlorhexidine (CHD) or decamethoxine (DMT). A linear dependence of glucose consumption by E. coli solution on the antiseptic concentration was obtained in the range of 3.0–12.0 μg mL⁻¹ for CHG and 1.0–12.0 μg mL⁻¹ for DMT, respectively. The developed third generation biosensor showed satisfactory stability and reproducibility of the analytical response. A modified electrode can be used for at least two months.

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用 SiO 2 -CuO-GLUCOSE 氧化酶薄膜改性的碳丝网印刷电极，用于以细菌为指示系统的毒性评估

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来源期刊

Electroanalysis 化学-电化学

CiteScore

6.00

自引率

3.30%

发文量

222

审稿时长

2.4 months

期刊介绍： Electroanalysis is an international, peer-reviewed journal covering all branches of electroanalytical chemistry, including both fundamental and application papers as well as reviews dealing with new electrochemical sensors and biosensors, nanobioelectronics devices, analytical voltammetry, potentiometry, new electrochemical detection schemes based on novel nanomaterials, fuel cells and biofuel cells, and important practical applications. Serving as a vital communication link between the research labs and the field, Electroanalysis helps you to quickly adapt the latest innovations into practical clinical, environmental, food analysis, industrial and energy-related applications. Electroanalysis provides the most comprehensive coverage of the field and is the number one source for information on electroanalytical chemistry, electrochemical sensors and biosensors and fuel/biofuel cells.