通过动力学参数和数字模拟技术研究了cu2+的两步电化学氧化还原机理

IF 0.6 Q3 ENGINEERING, MULTIDISCIPLINARY

Mehran University Research Journal of Engineering and Technology Pub Date : 2023-10-04 DOI:10.22581/muet1982.2304.2885

Obaid Khaliq, Iftikhar Ahmad Tahiri, Haji Muhammad, Shaikh Mohiuddin, Muhammad Hashim Zuberi, Syed Tahir Ali, Kousar Yasmeen

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引用次数: 0

摘要

全面探讨了Cu(II)SO4在NaCl水溶液(支撑电解质)中的循环伏安行为。5 mM Cu2+、1.0 M NaCl和玻璃碳(GC)反应最佳。采用不同的理论和实验方法探讨了两阶段机电氧化还原EE机理[(Cu2+/Cu+)和(Cu+/ Cu0)]。传质系数、无量纲参数和非均相电子传递速率常数证实了(Cu2+/Cu+)氧化还原对的准可逆响应。实验Gileadi值和模拟Digi Sim值分别为0.052 cm/s和0.0012 cm/s。通过不同的方法计算得到(Cu2+/Cu+)氧化还原对的扩散系数D在9.96 × 10-6 ~ 4.43 × 10-6 cm2/s范围内。本研究的新颖之处在于，采用简单、快速、经济的方法，通过获得的电化学和动力学参数来确定(Cu2+/Cu+)的准可逆反应。

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Two step electrochemical redox mechanism of cu2+ through kinetic parameters and digital simulation technique

Cycle voltammetric behaviour of Cu(II)SO4 in aqueous NaCl (supporting electrolyte) has been explored in comprehensive manner. 5 mM Cu2+, 1.0 M NaCl and glass carbon (GC) reveals the optimum response. Two stage electromechanical redox EE mechanism [(Cu2+/Cu+) and (Cu+/ Cu0)] has been explored by using different theoretical and experimental methods. The mass transfer co-efficient, dimensionless parameters and heterogeneous electron transfer rate constant ( confirmed the quasi-reversible response of (Cu2+/Cu+) redox couple. The experimental Gileadi ( and simulated Digi Sim ( values found as 0.052 cm/s and 0.0012 cm/s respectively. The diffusion co-efficient (D) of (Cu2+/Cu+) redox couple computed from 9.96 X 10-6 to 4.43 X 10-6 cm2/s through different methods. The novelty of the present work is to confirm the quasi-reversible response of (Cu2+/Cu+) through obtained electrochemical and kinetic parameters by using simple, fast, and cost-effective technique.

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来源期刊

Mehran University Research Journal of Engineering and Technology ENGINEERING, MULTIDISCIPLINARY-

自引率

0.00%

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审稿时长

40 weeks