Sol-Gel Derived Ti-Fe Oxide Coating for Photoelectrochemical Cathodic Protection of Carbon Steel

Abstract

On the novel approach of corrosion protection of carbon steel by TiO₂ coating under illumination, photoeffect of TiO₂/C-steel system is affected by the structural and electronic properties of the interfacial Ti-Fe oxide. In the present work, Ti-Fe oxide with a wide range of composition, from TiO₂ to α-Fe₂O₃, was prepared by sol-gel method. By studying the characteristics of the Ti-Fe oxides and their influences on the photoeffect of TiO₂/C-steel system, a multi-layer coating, expressed as from outer coating layer to substrate: TiO₂ (amorphous)/TiO₂ (anatase)/Ti-Fe oxide/α-Fe₂O₃/C-steel, was proposed for more effective photoelectrochemical cathodic protection of carbon steel. TiO₂ (anatase) layer without Fe contamination exhibits a good photoeffect and behaves like the source of photo-excited electrons. The inner α-Fe₂O₃ layer acts as both a barrier to retard the diffusion of Fe into TiO₂ and a way for the transfer of photo-excited electrons from the TiO₂ (anatase) coating to the substrate. The outer layer of amorphous TiO₂ inhibits the oxygen reduction and reduces the photopotential to a more less noble value. The intermediate layer of amorphous Ti-Fe oxide provides deep levels for Fe²⁺/Fe³⁺ redox couple, for which Fe³⁺ is reduced to Fe²⁺ by the photo-excited electrons under illumination. The state of Fe²⁺ left after stopping illumination contributes to phenomenon that the electrode potential is maintained at considerably less noble value until all the Fe²⁺ is re-oxidized by oxygen reduction.