Electrochemical oxidation of clomipramine drug in the absence and presence of 1, 3 dimethyl barbituric acid nucleophile: Electrochemical synthesis of new dibenzazepine derivative

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Abstract:Electrochemistry due suitable performance (selectivity, speed, sensitivity, and high accuracy) provides very interesting and versatile means for the study of pharmaceutical and biological compounds. In this study, electrochemical oxidation of clomipramine in the absence and presence of 1,3 dimethyl barbituric acid as a nucleophile in acidic medium with mechanistic studies has been investigated and synthesis a new dibenzazepine derivative electrochemically. Electrochemical oxidation of clomipramine drug has been studied in aqueous solution and various pHs using cyclic voltammetry and controlled-potential coulometry. Based on electrochemical results, dimerization is the main reaction of electro-oxidation of clomipramine in the absence of nucleophile via an ECE mechanism. Also, voltammetric results indicate that the oxidized dimeric form of clomipramine participation in Michael addition reaction with the1,3 dimethyl barbituric acid via an ECEC electrochemical mechanisms. However, the voltammetry and coulometry results imply existence of a catalytic (EC’) electrochemical mechanism in parallel with ECEC electrochemical mechanism. Finally, the product has been characterized by IR, 1H NMR, 13C NMR and MS methods

Keywords

• keywords: clomipramine
• 1
• 3 dimethyl barbituric acid
• dibenzazepine derivative
• cyclic voltammetry