Abstract
Electrooxidation of cyano methyl acetate carbazole derivative was analyzed electrochemically at a gold electrode in 0.1 M tetrabutylammonium chloride (TBACl) in CH2Cl2 by convolutional voltammetry and numerical simulation methods. Investigation via Cyclic voltammetric indicated the existence of singly fast oxidation wave coupled with the reductive peak in the reverse direction. It was observed that the electrode pathway of the investigated methyl(E)-2-cyno (N-ethyl carbazol-2-yl) acrylate compound proce-eds as EEC scheme. The electrochemical parameters of the oxidation process of the carbazole compound were calculated via cyclic voltammetry and convolutive voltammetry methods. The obtained data and the mechanistic of the electrode pathway were ascertained via numerical theoretical method.