Immobilization of Co II-(N,N′-bis(salicylidene)-2-aminobenzylamine) on Poly(pyrrole-co-o-anisidine)/Chitosan Composite Films: Application to Electrocatalytic Oxidation of Catechol

In this study, poly (pyrrole-co-o-anisidine)/chitosan composite (Cs) films were prepared by cyclic voltammetry technique on platinum electrode using different pyrrole and o-anisidine mole ratios. Immobilization process was accomplished in Co-II-(N,N '-bis(salicylidene)-2-aminobenzylamine)(CoL) dissolved 0.15 M acetonitrile-LiClO4 solution by cyclic voltammetry technique at 0.2-2.0 V potential range. Three electrode methods were applied in all electrochemical studies. After immobilization process, the characterizations of the electro catalytic surfaces (Cs-CoL-Pt) were carried out by cyclic voltammetry and SEM images. The SEM images clearly indicated that the [CoL] complex is immobilized onto composite films. The electrocatalytic activity of the modified electrodes on the catechol was investigated using buffer solutions of different pH values. The results of catalytic studies revealed that, pH=10 buffer solution was the optimal solution and 1 : 1 Cs-CoL-Pt electrode was the best electrode for catechol oxidation. In square wave voltammetry measurements using this electrode, two linear working ranges were determined. The linear response ranges for catechol determination were found as 3.0 mu M-6.0 mu M and 16 mu M-80 mu M for the first and the second linear working ranges, respectively, with 1.1 mu M detection limit.

Automated summary

In this research, poly (pyrrole-co-o-anisidine)/chitosan composite films were prepared on platinum electrodes using cyclic voltammetry technique with different pyrrole and o-anisidine mole ratios. The immobilization of CoL complex onto the electrode surface was characterized by cyclic voltammetry and SEM images, showing successful immobilization. The modified Cs-CoL-Pt electrode showed excellent electrocatalytic activity for catechol oxidation, with optimal performance in pH 10 buffer solution and two linear working ranges determined in square wave voltammetry measurements.