Electrochemical investigations of kinetics and mechanism of oxidation of caffeic acid in aqueous media using glassy carbon/multi-walls carbon nanotubes modified electrode

Refat Abdel-Hamid; Mostafa K. Rabia; Emad F. Newair

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Electrochemical investigations of kinetics and mechanism of oxidation of caffeic acid in aqueous media using glassy carbon/multi-walls carbon nanotubes modified electrode

机译：玻碳/多壁碳纳米管修饰电极对咖啡酸在水介质中的动力学和氧化机理的电化学研究

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Electrochemical investigation of kinetics and mechanism of caffeic acid oxidation was carried out in aqueous phosphate solutions with different pH values. Bare glassy carbon, GC and GC-modified with multi-walls carbon nanotubes, MWCNTs electrodes were used. Markedly improved cyclic voltammetric responses, giving rise to chemically reversible, concerted two-electron oxidation process, were obtained when MWCNTs/GC electrode is used. Importantly, the oxidation behaviour is a function of scan rate, concentration, and pH-dependent. The mechanism is consistent with the transfer of two electrons coupled with two protons. It was concluded that caffeic acid oxidizes chemically following ECEC, radical-radical mechanism. The proposed mechanism was confirmed on comparing the experimental data with the simulated ones.

机译：在不同pH值的磷酸盐水溶液中进行了咖啡酸氧化动力学和机理的电化学研究。裸玻璃碳，GC和GC-修饰的多壁碳纳米管，使用MWCNTs电极。当使用MWCNTs / GC电极时，获得了显着改善的循环伏安响应，从而产生了化学可逆的，一致的双电子氧化过程。重要的是，氧化行为是扫描速率，浓度和pH依赖性的函数。该机理与结合两个质子的两个电子的转移是一致的。结论是，咖啡因酸按照ECEC自由基自由基机制进行化学氧化。通过将实验数据与模拟数据进行比较，证实了所提出的机制。

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《Journal of the Indian Chemical Society》 |2013年第4期|共5页
作者
Refat Abdel-Hamid; Mostafa K. Rabia; Emad F. Newair;
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正文语种 eng
中图分类化学;
关键词
Caffeic acid; cyclic voltammetry; chronoamperometry; chronocoulometry; digital simulation.;

机译：咖啡酸循环伏安法计时电流法计时库仑法数字仿真;

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Electrochemical investigations of kinetics and mechanism of oxidation of caffeic acid in aqueous media using glassy carbon/multi-walls carbon nanotubes modified electrode

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