Electrochemical sensing of caffeic acid antioxidant in wine samples using carbon paste electrode amplified with CdO/SWCNTs

IF 2.9 Q2 ELECTROCHEMISTRY Journal of Electrochemical Science and Engineering Pub Date : 2023-06-19 DOI:10.5599/jese.1701

Zahra Arab, Sara Jafarian, H. Karimi-Maleh, Leila Roozbeh Nasiraie, Mohammad Ahmadi

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Abstract

An electrochemical sensor was introduced as an analytical tool for monitoring caffeic acid in food samples. This analytical tool was amplified by cadmium oxide decorated on single wall carbon nanotubes as a new catalyst and showed a powerful ability to sensing of caffeic acid in food products. The presence of cadmium oxide decorated on single wall carbon nanotubes catalyst improved the oxidation signal of caffeic acid about 2.4 times at optimum conditions. The pH investigation confirmed that the redox reaction of caffeic acid was pH dependent and showed maximum sensitivity at pH 7.0. The paste electrode amplified with cadmium oxide decorated on single wall carbon nanotubes was successfully monitored caffeic acid in the concentration range 0.02–200 µM with a detection limit of 9.0 nM, respectively. The standard addition strategy showed a recovery range of 97.96 – 102.59 % to the measurement of caffeic acid in fruit juice, white and red wine that was acceptable for the fabrication of a new analytical tool in food monitoring.

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用CdO/SWCNTs扩增碳糊电极电化学检测葡萄酒样品中咖啡酸抗氧化剂

介绍了一种用于食品中咖啡酸监测的电化学传感器。将氧化镉修饰在单壁碳纳米管上作为新型催化剂，对该分析工具进行了放大，显示出对食品中咖啡酸的强大检测能力。在最佳条件下，单壁碳纳米管催化剂上装饰氧化镉的存在使咖啡酸的氧化信号提高了2.4倍。pH调查证实咖啡酸的氧化还原反应与pH有关，在pH 7.0时表现出最大的敏感性。在单壁碳纳米管上修饰氧化镉后扩增的膏状电极，分别在0.02 ~ 200µM范围内对咖啡酸进行了检测，检出限为9.0 nM。该标准添加策略对果汁、白葡萄酒和红葡萄酒中咖啡酸的测定回收率为97.96 ~ 102.59%，可用于食品监测分析工具的研制。

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