ELECTROCHEMICAL-BEHAVIOR OF CR2O3 FE2O3 ARTIFICIAL PASSIVE FILMS STUDIED BY IN-SITU XANES/

The electrochemical behavior of thin sputter-deposited mixed Cr2O3/Fe2 O3 oxide films with Cr2O3-contents of 10, 20, 50, and 90% was studied with in situ X-ray absorption near edge spectroscopy (XANES). These me asurements gave information on the chemical states and dissolution rat es during anodic and cathodic polarization in different electrolytes. Bt low Cr oxide concentrations, the films dissolve when cathodically p olarized and are resistant to dissolution when polarized in the anodic direction. At high Cr2O3 concentrations, dissolution occurs when the films are anodically polarized, but the films are stable against catho dic dissolution. In the intermediate Cr oxide concentration range, the oxides neither dissolve under anodic nor cathodic polarization. Howev er, in all the cases, even when no dissolution takes place, the specie s show electroactivity in that the redox reactions Fe3+ --> Fe2+ and C r3+ --> Cr6+ Can take place under cathodic and anodic polarization, re spectively. In the mixed oxides a solid-state conversion takes place i n the iron oxide phase during reduction, whereas the oxidation of the chromium oxide phase converts only the outermost layer. An acidic envi ronment accelerates both anodic and cathodic dissolution, associated w ith chemical dissolution of the iron oxide. The results further show t hat critical threshold values exist for the dissolution resistance of the oxide. These values are different for anodic and cathodic reaction s and further strongly depend on the solution chemistry.