This paper reports the results of a kinetic study into the transformation of 2,4- and 3,4-dichloroaniline (2,4-DCA, 3,4-DCA) and of methyl yellow (MY) with the Fenton reagent in aqueous solution. All the substrates can be degraded in the presence of Fe(II) + H2O2, but the reaction between Fe(II) and H2O2 causes substrate degradation and Fe(II) oxidation within seconds under the adopted conditions. The HPLC, GC-MS and IC analyses only allow the monitoring of the reaction after all Fe(II) has been consumed, when degradation proceeds more slowly via Fe(III) reduction to Fe(II). Substrate degradation in the first part of the reaction was studied by stopped-flow spectrophotometry, using MY as substrate. The results are consistent with a reaction involving _OH, where both Fe(II) and H2O2 compete with MY for the hydroxyl radical. However, the experimental data indicate that _OH is unlikely to be the only product of the reaction between Fe(II) and H2O2. Another species, possibly the ferryl ion (FeO2+), is formed as well but has a negligible role in MY degradation. The Fenton reaction would thus yield both _OH (about 60% at pH 2) and ferryl (about 40%), and the 60 : 40 branching ratio between _OH and the other species is compatible with additional data here reported concerning the degradation of 2,4-DCA and 3,4-DCA in the first ferrous step of the Fenton reaction. The reported findings will hopefully indicate a way out of a long-lasting controversy concerning the mechanism of the Fenton process, also suggesting an approach to quantitatively determine the formation yields of the reactive species as well as a strategy to identify the reactant that is actually involved in substrate transformation.

A quantitative assessment of the production of _OH and additional oxidants in the dark Fenton reaction: Fenton degradation of aromatic amines

MINERO, Claudio;MAURINO, Valter;VIONE, Davide Vittorio
2013-01-01

Abstract

This paper reports the results of a kinetic study into the transformation of 2,4- and 3,4-dichloroaniline (2,4-DCA, 3,4-DCA) and of methyl yellow (MY) with the Fenton reagent in aqueous solution. All the substrates can be degraded in the presence of Fe(II) + H2O2, but the reaction between Fe(II) and H2O2 causes substrate degradation and Fe(II) oxidation within seconds under the adopted conditions. The HPLC, GC-MS and IC analyses only allow the monitoring of the reaction after all Fe(II) has been consumed, when degradation proceeds more slowly via Fe(III) reduction to Fe(II). Substrate degradation in the first part of the reaction was studied by stopped-flow spectrophotometry, using MY as substrate. The results are consistent with a reaction involving _OH, where both Fe(II) and H2O2 compete with MY for the hydroxyl radical. However, the experimental data indicate that _OH is unlikely to be the only product of the reaction between Fe(II) and H2O2. Another species, possibly the ferryl ion (FeO2+), is formed as well but has a negligible role in MY degradation. The Fenton reaction would thus yield both _OH (about 60% at pH 2) and ferryl (about 40%), and the 60 : 40 branching ratio between _OH and the other species is compatible with additional data here reported concerning the degradation of 2,4-DCA and 3,4-DCA in the first ferrous step of the Fenton reaction. The reported findings will hopefully indicate a way out of a long-lasting controversy concerning the mechanism of the Fenton process, also suggesting an approach to quantitatively determine the formation yields of the reactive species as well as a strategy to identify the reactant that is actually involved in substrate transformation.
2013
3
26443
26450
HYDROXYL RADICALS; HYDROGEN-PEROXIDE; AQUEOUS-SOLUTION; SONOCHEMICAL DEGRADATION; VALENT IRON; OXIDATION; REAGENT; PH; CHEMISTRY; MINERALIZATION
Claudio Minero; Mirco Lucchiari; Valter Maurino; Davide Vione
File in questo prodotto:
File Dimensione Formato  
RSCAdv2013__Fenton.pdf

Accesso riservato

Tipo di file: PDF EDITORIALE
Dimensione 440.03 kB
Formato Adobe PDF
440.03 kB Adobe PDF   Visualizza/Apri   Richiedi una copia
RSCAdv2013_Fenton.pdf

Open Access dal 26/10/2014

Tipo di file: POSTPRINT (VERSIONE FINALE DELL’AUTORE)
Dimensione 329.15 kB
Formato Adobe PDF
329.15 kB Adobe PDF Visualizza/Apri

I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/141266
Citazioni
  • ???jsp.display-item.citation.pmc??? ND
  • Scopus 47
  • ???jsp.display-item.citation.isi??? 45
social impact