Molecules (Jun 2012)
Self Assembled Films of Porphyrins with Amine Groups at Different Positions: Influence of Their Orientation on the Corrosion Inhibition and the Electrocatalytic Activity
Abstract
Self-assembled molecular films of two cobalt porphyrins with amine groups at different positions—(5,10,15,20-tetrakis-(2-aminophenyl) porphyrin-cobalt(II), [Co(II) (T(o-NH<sub>2</sub>)PP)] and (5,10,15,20-tetrakis-(4-aminophenyl) porphyrin-cobalt(II), [Co(II)(T(p-NH<sub>2</sub>)PP)]—were formed on a gold substrate. The functionalized surfaces were characterized using Raman spectroscopy, atomic force microscopy and electrochemical methods. Both modified gold surfaces completely mask the charge transfer of a [Fe(CN)<sub>6</sub>]<sup>3−/4−</sup> redox couple in solution, indicating the layer is highly resistive in behavior. Electrochemical impedance spectroscopy analyses revealed that the porphyrin film with amine groups at <em>ortho</em> positions shows a higher charge-transfer resistance with a better protective behavior compared to the <em>para</em> position modified surface. Raman, AFM and EIS data suggests that an <em>ortho</em> amine positioned molecule forms a more compact layer compared to the <em>para</em>-positioned molecule. This can be explained in terms of their orientation on the gold surface. [Co(II)(T(o-NH<sub>2</sub>)PP)] adopted a saddle shape orientation whereas [Co(II)(T(p-NH<sub>2</sub>)PP)] adopted a flat orientation on the gold surface. The porphyrin modified gold electrode catalyzes the oxygen reduction at lower potentials compared to the bare gold electrode. The shift in the overvoltage was higher in case of molecules with flat orientation compared to the saddle shaped oriented porphyrin molecules on the surface.
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