Publication | Closed Access
Role of decomposition-induced and other surface states in the photoelectrochemical kinetics of n-GaP/Fe2+
10
Citations
0
References
1983
Year
EngineeringInorganic PhotochemistryPhotoelectrochemical KineticsPhoto-electrochemical CellChemistryPhotoelectrochemistryTheoretical ElectrochemistryChemical EngineeringPhotoredox ProcessStabilization ReactionPhotocatalysisOther Surface StatesFe2+ IonElectrode Reaction MechanismFe2+ IonsElectrical EngineeringPhotochemistryMechanistic PhotochemistrySurface ElectrochemistryQuantum ChemistryHydrogenMicroelectronicsElectrochemistryNatural SciencesSurface ScienceApplied PhysicsFundamental ElectrochemistryChemical Kinetics
Experimental results on the stabilization of the illuminated n-GaP electrode by Fe2+ ions are interpreted on the basis of a model in which the stabilization reaction is assumed to occur by electron transfer from the Fe2+ ion to a surface intermediate of the anodic decomposition reaction of the semiconductor, whereas surface recombination is assumed to involve ordinary surface states as well as decomposition intermediates. The numerical treatment of the ensuing kinetic equations leads to results which are in good agreement with the experimental data.