The structure and composition of the passive film formed on the super-austenitic AISI 254SMO stainless steel in borate solution were studied using photocurrent spectroscopy coupled with electrochemical measurements. Charge passed calculations suggested that the
Cr(VI)
phase formed in the transpassive region is insoluble. Evidence for the presence of Ni in the passive film was also found. Photocurrent spectroscopy revealed that an n-type
Fe(III)
oxide phase dominated at more positive potentials, where
Cr(VI)
was expected. However, once the
Cr(III)
phase started to form in the reverse potential scan both
Fe(III)
and
Cr(III)
phases appeared together in the passive region between 200 and
−300mV
, with both showing n-type behavior. At more negative potentials, cathodic photocurrents were observed, most likely due to the reduction of the
Fe2normalO3
to p-type
FeO
. The magnitude of the bandgaps of the oxides were found to be independent of the values of the applied potential.
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