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VOLTAMMETRIC EXAMINATION OF HYDROQUINONE AT ORDINARY AND NANO-ARCHITECTURE PLATINUM ELECTRODES

Macedonian Journal of Chemistry and Chemical Engineering • 2023
العودة
معلومات البحث
المؤلفون Ahmed A. Al-Owais Ahmed A. Al-Owais1 , Ibrahim S. El-Hallag*2, Elsayed El-Mossalamy3 , Ibrahim S. El-Hallag*2, Elsayed El-Mossalamy3
الكلمات المفتاحية hydroquinone; cyclic voltammetry; convolution transform; deconvolution transform; numerical simulation.
المجلة العلمية Macedonian Journal of Chemistry and Chemical Engineering
الناشر Not Available
المجلد Vol. 42, No. 1, pp. xx–xx (2023)
العدد 1857-5552
الصفحات Not Available
publication.type International
رابط البحث Not Available
المواد المرفقة Not Available
الملخص
The electrochemical behavior of hydroquinone was examined experimentally using cyclic voltammetry, convolution transform, and deconvolution transform at clean ordinary and nanostructured mesoporous platinum electrodes in 1 mol/l HClO4. The cyclic voltammogram of hydroquinone (HQ) at an ordinary Pt electrode displays an anodic peak at 0.610 V and a cathodic peak at 0.117 V, with a scan rate of
50 mV·s–1
. Excellent linearity was recorded between the anodic or cathodic peak currents of hydroquinone and the square root of the scan rate (υ1/2). The anodic and cathodic peak potential separation (∆Ep)
was found to be 463 ± 3 mV vs. the saturated calomel electrode (SCE). It was noted that the value of peak
potential separation increased with increasing the scan rate. The type of electrode reaction at both platinum electrodes in 1 mol/l HClO4 was examined and discussed. The electrochemical parameters and the
nature of the mechanistic pathway of the investigated HQ were determined experimentally and ascertained via a numerical simulation method.