Litcius/Paper detail

Initial Steps in the Reaction of H2O2 with Fe2+ and Fe3+ Ions: Inconsistency in the Free Radical Theory

Mordechai L. Kremer

2023Reactions31 citationsDOIOpen Access PDF

Abstract

Consideration of the changes in free energy shows that the assumed initial steps in reactions of H2O2 with Fe2+ and Fe3+ in the free radical theory are not consistent. The free radical theory is unable to account for the Fe3+-initiated decomposition of H2O2 or for oxidations by it. In reactions with Fe2+ ions at high [H2O2], where O2 evolution reaches a limit, such limit is not foreseen by the free radical model. At lower [H2O2], because of a disallowed substitution in the equation used, the interpretation is not valid. It appears, therefore, that free radicals derived from H2O2 do not provide a suitable basis for constructing models for these reactions. Non-radical models are more successful in interpreting experimental results.

Topics & Concepts

RadicalRadical substitutionDecompositionChemistryLimit (mathematics)IonBasis (linear algebra)Free productInterpretation (philosophy)Computational chemistryPhotochemistryThermodynamicsMathematicsGroup (periodic table)PhysicsOrganic chemistryComputer scienceMathematical analysisProgramming languageGeometryAdvanced oxidation water treatmentFree Radicals and AntioxidantsElectrochemical Analysis and Applications