E. Abel, Über die katalytische Zersetzung von Wasserstoffsuperoxyd durch Eisensalze, Österreichische Chemiker-Zeitung, pp.79-80, 1948.
DOI : 10.1007/bf00898379

K. I. Abe and K. Tanaka, Fe 3+ and UV-enhanced ozonation of chlorophenolic compounds in aqueous medium, Chemosphere, issue.35, pp.2837-2847, 1997.

U. G. Ahlborg and T. M. Thunberg, Chlorinated Phenols: Occurrence, Toxicity, Metabolism, And Environmental Impact, CRC Critical Reviews in Toxicology, vol.25, issue.149, pp.1-35, 1980.
DOI : 10.1021/jf60214a037

Z. Ai, L. Lu, J. Li, L. Zhang, J. Qiu et al., Core???Shell Nanowires as Iron Reagent. 1. Efficient Degradation of Rhodamine B by a Novel Sono-Fenton Process, The Journal of Physical Chemistry C, vol.111, issue.11, pp.2007-4087
DOI : 10.1021/jp065559l

Z. Aksu and J. Yener, A comparative Adsorption/Biosorption study of Mono-Chlorinated phenols onto various sorbents. Waste Manage, pp.695-702, 2001.

L. Al-hayek and M. Dor´e, Oxidation des ph´enols par le peroxide d'hydrogene en milieu aqueux en pr´esence de fer support´e sur alumine, Water Research, issue.24, pp.973-982, 1990.
DOI : 10.1016/0043-1354(90)90119-q

R. Andreozzi, A. D-'apuzzo, and R. Marotta, Oxidation of aromatic substrates in water/goethite slurry by means of hydrogen peroxide, Water Research, vol.36, issue.19, pp.36-4691, 2002.
DOI : 10.1016/S0043-1354(02)00204-X

R. Andreozzi, V. Caprio, and R. Marotta, Oxidation of 3,4-dihydroxybenzoic acid by means of hydrogen peroxide in aqueous goethite slurry, Water Research, vol.36, issue.11, pp.36-2761, 2002.
DOI : 10.1016/S0043-1354(01)00499-7

U. Armbruster, A. Martin, S. Wilhelm, and S. Mothes, Heterogen katalysierte Nassoxidation schadstoffhaltiger Abwässer bei erhöhten Drücken und Temperaturen, Chemie Ingenieur Technik, issue.74, pp.1450-1454, 2002.

S. M. Arnold, W. J. Hickey, and R. F. Harris, Degradation of Atrazine by Fenton's Reagent: Condition Optimization and Product Quantification, Environmental Science & Technology, vol.29, issue.8, pp.29-2083, 1995.
DOI : 10.1021/es00008a030

H. Bader, V. Sturzenegger, and J. Hoigné, Photometric method for the determination of low concentrations of hydrogen peroxide by the peroxidase catalyzed oxidation -137 of N,N-diethyl-p-phenylenediamine (DPD) Water Research, pp.1109-1115, 1988.

M. C. Ballesteros, E. H. Rueda, and M. A. Blesa, The Influence of Iron (II) and (III) on the Kinetics of Goethite Dissolution by EDTA, Journal of Colloid and Interface Science, vol.201, issue.1, pp.13-19, 1998.
DOI : 10.1006/jcis.1997.5360

W. G. Barb, J. H. Baxendale, P. George, and K. R. Hargrave, Reactions of Ferrous and Ferric Ions with Hydrogen Peroxide, Nature, vol.163, issue.4148, pp.1949-692
DOI : 10.1038/163692a0

W. G. Barb, J. H. Baxendale, P. George, and K. R. Hargrave, Reactions of ferrous and ferric ions with hydrogen peroxide. Part I.-The ferrous ion reaction. Transactions of the Faraday Society, pp.1951-462

W. G. Barb, J. H. Baxendale, P. George, and K. R. Hargrave, Reactions of ferrous and ferric ions with hydrogen peroxide. Part II.-The ferric ion reaction. Transactions of the Faraday Society, pp.591-616, 1951.

J. Barrault, M. Abdellaoui, C. Bouchoule, A. Majeste, J. M. Tatibouet et al., Catalytic wet peroxide oxidation over mixed (Al?Fe) pillared clays, Applied Catalysis B: Environmental, vol.27, pp.2000-225

J. C. Barreiro, M. D. Capelato, L. Martin-neto, and H. C. Hansen, Oxidative decomposition of atrazine by a Fenton-like reaction in a H2O2/ferrihydrite system, Water Research, vol.41, issue.1, pp.55-62, 2007.
DOI : 10.1016/j.watres.2006.09.016

F. J. Benitez, J. L. Acero, F. J. Real, F. J. Rubio, and A. L. Leal, The role of hydroxyl radicals for the decompositionof p-hydroxy phenylacetic acid in aqueous solutions, Water Research, issue.35, pp.1338-1343, 2001.

F. J. Benitez, J. L. Acero, F. J. Real, and J. Garcia, Kinetics of photodegradation and ozonation of pentachlorophenol, Chemosphere, issue.51, pp.651-662, 2003.

B. H. Bielski, Reevaluation of the spectral and kinetic properties of HO 2 and O 2 - free radicals, Photochemistry and Photobiology, issue.28, pp.645-649, 1978.

B. H. Bielski, D. E. Cabelli, R. L. Arudi, and A. B. Ross, Reactivity of HO 2 /O 2 -Radicals in Aqueous Solution, Journal of Physical and Chemical Reference Data, issue.14, pp.1985-1041

B. H. Bielski and D. E. Cabelli, Highlights of current research involving superoxide and -138 perhydroxyl radicals in aqueous solution, International Journal of Radiation Biology, issue.59, pp.291-319, 1991.

R. J. Bigda, Consider Fenton's chemistry for wastewater treatment, Chemical Engineering Progress, issue.12, pp.91-62, 1995.

D. F. Bishop, G. Stern, M. Fleischman, and L. S. Marshall, Hydrogen peroxide catalytic oxidation of refractory organics in municipal waste waters. Industrial & Engineering Chemistry Process Design and Development, pp.1968-110

M. A. Blesa, E. B. Borghi, A. J. Maroto, and A. E. Regazzoni, Adsorption of EDTA and iron-EDTA complexes on magnetite and the mechanism of dissolution of magnetite by EDTA, Journal of Colloid and Interface Science, issue.2, pp.98-295, 1984.

W. C. Bray, The Interaction of Ozone and Hydrogen Peroxide in Aqueous Solution, Journal of the American Chemical Society, vol.60, issue.1, pp.82-87, 1938.
DOI : 10.1021/ja01268a027

M. A. Brown, D. Vito, and S. C. , Predicting azo dye toxicity, Critical Reviews in Environmental Science and Technology, vol.120, issue.3, pp.249-324, 1993.
DOI : 10.1111/j.1432-1033.1982.tb07040.x

F. Buda, B. Ensing, M. C. Gribnau, and E. J. Baerends, DFT Study of the Active Intermediate in the Fenton Reaction, Chemistry - A European Journal, vol.7, issue.13, pp.7-2775, 2001.
DOI : 10.1002/1521-3765(20010702)7:13<2775::AID-CHEM2775>3.0.CO;2-6

C. Buitrago, G. Centi, A. Lodolo, and S. Miertus, Compendium of Waste Water Treatment and Water Purification Technologies. International Centre for Science and High Technology-United Nations Industrial Development Organization, p.pp, 2002.

A. A. Burbano, D. D. Dionysiou, M. T. Suidan, and T. L. Richardson, Oxidation kinetics and effect of pH on the degradation of MTBE with Fenton reagent, Water Research, vol.39, issue.1, pp.107-118, 2005.
DOI : 10.1016/j.watres.2004.09.008

M. J. Burkitt and B. C. Gilbert, Model Studies of the Iron-Catalysed Haber-Weiss Cycle and the Ascorbate-Driven Fenton Reaction, Free Radical Research Communications, vol.47, issue.4-5, pp.65-280, 1990.
DOI : 10.3109/10408448509023766

G. V. Buxton, C. L. Greenstock, W. P. Helman, and A. B. Ross, Critical review of rate -139 constants for reactions of hydrated electrons, hydrogen atoms and hydroxyl radicals (?OH/?O -) in aqueous solution, Journal of Physical and Chemical Reference Data, issue.17, pp.513-886, 1988.

J. G. Carriazo, E. Guelou, J. Barrault, J. M. Tatibouet, and S. Moreno, Catalytic wet peroxide oxidation of phenol over Al???Cu or Al???Fe modified clays, Applied Clay Science, vol.22, issue.6, pp.303-308, 2003.
DOI : 10.1016/S0169-1317(03)00124-8

G. Centi, S. Perathoner, T. Torre, and M. G. Verduna, Catalytic wet oxidation with H 2 O 2 of carboxilic acids on homogeneous and heterogeneuos Fenton-type catalyst, Catalysis Today, issue.55, pp.2000-61

G. Centi and S. Perathoner, Sustainable water use and technologies, La Chimica e L'Industria, vol.83, p.43, 2001.

M. Chakchouk, M. Hamdi, J. N. Foussard, and H. Debellefontaine, Complete treatment of olive mill wastewaters by a wet air oxidation process coupled with a biological step, Environmental Technology, vol.1, issue.4, pp.323-332, 1994.
DOI : 10.1007/BF00369268

A. G. Chakinala, D. H. Bremner, P. R. Gogate, N. Kyu-cheol, and A. E. Burgess, Multivariate analysis of phenol mineralisation by combined hydrodynamic cavitation and heterogeneous advanced Fenton processing, Applied Catalysis B: Environmental, vol.78, issue.1-2, pp.11-18, 2008.
DOI : 10.1016/j.apcatb.2007.08.012

E. Chamarro, A. Marco, and S. Esplugas, Use of fenton reagent to improve organic chemical biodegradability, Water Research, vol.35, issue.4, pp.1047-1051, 2001.
DOI : 10.1016/S0043-1354(00)00342-0

D. W. Chen and A. K. Ray, Photodegradation kinetics of 4-nitrophenol in TiO 2 suspension, Water Research, issue.32, pp.3223-3234, 1998.

R. Chen and J. J. Pignatello, Role of quinone intermediates as electron shuttles in Fenton and photoassisted Fenton oxidations of aromatic compounds, Environmental Science and Technology, pp.2399-2406, 1997.

Q. Q. Chen, P. X. Wu, Y. Y. Li, N. W. Zhu, and Z. Dang, Heterogeneous photo-Fenton photodegradation of reactive brilliant orange X-GN over iron-pillared montmorillonite under visible irradiation, Press, p.140, 2009.
DOI : 10.1016/j.jhazmat.2009.02.107

C. T. Chiou, P. E. Porter, and D. W. Schmedding, Partition equilibrium of nonionic organic compounds between soil organic matter and water. Environmental Science and Technology, pp.227-231, 1983.

S. Chiron, A. A. Fernandez, A. Rodriguez, and E. G. Calvo, Pesticide chemical oxidation: State-of-the-art. Water Reserch, pp.366-377, 2000.

K. T. Chung, S. E. Stevens, and C. E. Cerniglia, The Reduction of Azo Dyes by the Intestinal Microflora, Critical Reviews in Microbiology, vol.21, issue.3, pp.175-197, 1992.
DOI : 10.1007/BF01072052

R. C. Costa, F. C. Moura, J. D. Ardisson, J. D. Fabris, and R. M. Lago, Highly active heterogeneous Fenton-like systems based on Fe0/Fe3O4 composites prepared by controlled reduction of iron oxides, Applied Catalysis B: Environmental, vol.83, issue.1-2, pp.131-139, 2008.
DOI : 10.1016/j.apcatb.2008.01.039

G. M. Da-costa, E. De-grave, D. Bakker, P. M. Vandenberghe, and R. E. , Influence of nonstoichiometry and the presence of maghemite on the Mossbauer spectrum of magnetite. Clays & Clay Minerals, pp.656-668, 1995.

N. Daneshvar, M. Rabbani, N. Modirshahla, and M. A. Behnajady, Kinetic modeling of photocatalytic degradation of Acid Red 27 in UV/TiO 2 process, Journal of Photochemistry and Photobiology. A, issue.168, pp.2004-2043

T. L. Dantas, V. P. Mendonça, H. J. José, A. E. Rodrigues, and R. F. Moreira, Treatment of textile wastewater by heterogeneous Fenton process using a new composite Fe2O3/carbon, Chemical Engineering Journal, vol.118, issue.1-2, pp.77-82, 2006.
DOI : 10.1016/j.cej.2006.01.016

T. J. Daou, S. Begin-colin, J. M. Greneche, F. Thomas, A. Derory et al., Phosphate Adsorption Properties of Magnetite-Based Nanoparticles, Chemistry of Materials, vol.19, issue.18, pp.2007-4494
DOI : 10.1021/cm071046v

URL : https://hal.archives-ouvertes.fr/hal-00212131

D. J. Deeble, B. J. Parsons, and G. O. Phillips, Medical Biochemical and Chemical Aspects of Free Radicals, pp.505-515, 1989.

D. Heredia, J. B. Torregrosa, J. Dominguez, J. R. Peres, and J. A. , Kinetic model for phenolic -141 compound oxidation Fenton's reagent, Chemosphere, issue.45, pp.85-90, 2001.

D. Laat, J. Gallard, and H. , Catalytic decomposition of hydrogen peroxide by Fe(III) in homogeneous aqueous solutions: mechanism and kinetic modeling. Environmental Science and Technology, pp.33-2726, 1999.

M. A. De-león, J. Castiglioni, J. Bussi, and M. Sergio, Catalytic activity of an iron-pillared montmorillonitic clay mineral in heterogeneous photo-Fenton process. Catalysis Today, pp.133-135, 2008.

J. H. Deng, J. Jiang, Y. Zhang, X. Lin, C. Du et al., FeVO4 as a highly active heterogeneous Fenton-like catalyst towards the degradation of Orange II, Applied Catalysis B: Environmental, vol.84, issue.3-4, pp.3-4, 2008.
DOI : 10.1016/j.apcatb.2008.04.029

D. J. Doocey and P. N. Sharratt, Zeolite-Mediated advanced oxidation of model chlorinated phenolic aqueous waste: Part 1: aqueous phase fenton catalysis, Process Safety and Environmental protection, issue.82, pp.352-358, 2004.

Z. H. Duan, L. Zhu, L. Zhu, K. Yao, and X. Zhu, Individual and joint toxic effects of pentachlorophenol and bisphenol A on the development of zebrafish (Danio rerio) embryo, Ecotoxicology and Environmental Safety, vol.71, issue.3, pp.774-780, 2008.
DOI : 10.1016/j.ecoenv.2008.01.021

F. Duarte, F. J. Maldonado-ho´dar, A. F. Pe´rez-cadenas, and L. M. Madeira, Fenton-like degradation of azo-dye Orange II catalyzed by transition metals on carbon aerogels, Applied Catalysis B: Environmental, vol.85, issue.3-4, pp.2009-139
DOI : 10.1016/j.apcatb.2008.07.006

K. Dutta, S. Mukhopadhyay, S. Bhattacharjee, and B. Chaudhuri, Chemical oxidation of methylene blue using a Fenton-like reaction, Journal of Hazardous Materials, vol.84, issue.1, pp.57-71, 2001.
DOI : 10.1016/S0304-3894(01)00202-3

D. A. Dzombak and F. M. Morel, Surface Complexation Modeling: Hydrous Ferric Oxide, 1990.

J. D. Englehardt, D. E. Meeroff, L. Echegoyen, Y. Deng, F. M. Raymo et al., Oxidation of Aqueous EDTA and Associated Organics and Coprecipitation of Inorganics by Ambient Iron-Mediated Aeration, Environmental Science & Technology, vol.41, issue.1, p.142
DOI : 10.1021/es061605j

M. Erdemoglu and M. Sar?kaya, Effects of heavy metals and oxalate on the zeta potential of magnetite, Journal of Colloid and Interface Science, vol.300, issue.2, pp.795-804, 2006.
DOI : 10.1016/j.jcis.2006.04.004

S. Esplugas, J. Giménez, S. Contreras, E. Pascual, and M. Rodríguez, Comparison of different advanced oxidation processes for phenol degradation, Water Research, vol.36, issue.4, pp.2002-2038
DOI : 10.1016/S0043-1354(01)00301-3

K. Fajerwerg and H. Debellefontaine, Wet oxidation of phenol by hydrogen peroxide using heterogeneous catalysis Fe-ZSM-5: a promising catalyst, Applied Catalysis B: Environmental, vol.10, issue.4, pp.229-235, 1996.
DOI : 10.1016/S0926-3373(96)00041-0

B. C. Faust and M. R. Hoffmann, Photoinduced reductive dissolution of R-Fe2O3 by bisulfite. Environmental Science and Technology, pp.943-948, 1984.

J. Y. Feng, X. Hu, and P. L. Yue, Effect of initial solution pH on the degradation of Orange II using clay-based Fe nanocomposites as heterogeneous photo-Fenton catalyst, Water Research, vol.40, issue.4
DOI : 10.1016/j.watres.2005.12.021

J. Y. Feng, X. Hu, and P. L. Yue, Mineralization of Indigo Carmine at Neutral pH Using a Nanocomposite as a Heterogeneous Photo???Fenton Catalyst, Studies in Surface Science and Catalysis, issue.159, pp.389-392, 2006.
DOI : 10.1016/S0167-2991(06)81615-0

J. Y. Feng, X. Hu, P. L. Yue, H. Y. Zhu, and G. Q. Lu, Discoloration and mineralization of Reactive Red HE-3B by heterogeneous photo-Fenton reaction, Water Research, vol.37, issue.15, pp.37-3776, 2003.
DOI : 10.1016/S0043-1354(03)00268-9

H. J. Fenton, Oxidation of tartaric acid in the presence of ion, Journal of the Chemical Society, issue.65, pp.1894-899

W. Ferraz, L. C. Oliveira, R. Dallago, and L. Da-conceica?o, Effect of organic acid to enhance the oxidative power of the fenton-like system Computational and -143 empirical evidences, Catalysis Communications, issue.8, pp.2007-131

Y. Flores, R. Flores, and A. A. Gallegos, Heterogeneous catalysis in the Fenton-type system reactive black 5/H 2 O 2, Journal of Molecular Catalysis A: Chemical, issue.281, pp.184-191, 2008.

J. Folke and J. Birklund, Danish coastal levels of 2,3,4,6-tetrachlorophenol, pentachlorophenol, and total organohalogens in blue mussels

M. Fukushima and K. Tatsumi, Degradation Pathways of Pentachlorophenol by Photo-Fenton Systems in the Presence of Iron(III), Humic Acid, and Hydrogen Peroxide, Environmental Science & Technology, vol.35, issue.9, pp.1771-1778, 2001.
DOI : 10.1021/es001088j

H. Gallard, D. Laat, and J. , Kinetic modelling of Fe(BI)/H 2 0 2 oxidation reactions in dilute aqueous solution using atrazine as a model organic compound, Water Research, issue.34, pp.3107-3116, 2000.

A. H. Gemeay, I. A. Mansour, R. G. El-sharkawy, and A. B. Zaki, Kinetics and mechanism of the heterogeneous catalyzed oxidative degradation of indigo carmine, Journal of Molecular Catalysis A: Chemical, vol.193, issue.1-2, pp.2003-109
DOI : 10.1016/S1381-1169(02)00477-6

P. George, Some experiments on the reactions of potassium superoxide in aqueous solutions. The Discussions of the Faraday Society, pp.196-205

N. Getoff, F. Schwoerer, V. M. Markovic, K. Sehested, and S. O. Nielsen, Pulse radiolysis of oxalic acid and oxalates, Journal of Physical Chemistry, issue.75, pp.1971-749

W. H. Glaze, J. W. Kang, and D. H. Chapin, The Chemistry of Water Treatment Processes Involving Ozone, Hydrogen Peroxide and Ultraviolet Radiation, Ozone: Science & Engineering, vol.109, issue.4, pp.335-352
DOI : 10.1021/ac00281a031

W. H. Glaze, An overview of advanced oxidation processes: current status and kinetic models. Chemical Oxidation, pp.44-57, 1994.

M. Grimwood and R. Mascarenhas, Proposed environmental quality standards for 2-, 3- and 4-chlorophenol and 2,4-dichlorophenol in water, 1997.

I. R. Guimarães, L. C. Oliveira, P. F. Queiroz, T. C. Ramalho, M. Pereira et al., Modified goethites as catalyst for oxidation of quinoline: Evidence -144 of heterogeneous Fenton process Applied Catalysis A: General, pp.89-93, 2008.

S. S. Gupta, M. Stadler, C. A. Noser, A. Ghosh, B. Steinhoff et al., Rapid Total Destruction of Chlorophenols by Activated Hydrogen Peroxide, Science, vol.296, issue.5566, pp.2002-326
DOI : 10.1126/science.1069297

F. Haber and R. Willstätter, Unpaarigheit und Radikalkettenim Reaktion-Mechanismus organischer und enzymatischer Vorgänge, Chemische Berichte, vol.64, pp.2844-2856, 1931.

F. Haber and J. Weiss, Über die Katalyse des Hydroperoxydes, Naturwiss, issue.51, pp.948-950, 1932.

F. Haber and J. Weiss, The catalytic decomposition of hydrogen peroxide by ferrous salts, Proceedings of the Royal Society of London Series A, issue.147, pp.1934-332

W. R. Hag and C. C. Yao, Rate constants for reaction of hydroxyl radicals with several drinking water contaminants, Environmental Science & Technology, vol.26, issue.5, pp.1811-1818, 1992.
DOI : 10.1021/es00029a021

K. Hanna, T. Kone, and G. Medjahdi, Synthesis of the mixed oxides of iron and quartz and their catalytic activities for the Fenton-like oxidation, Catalysis Communications, vol.9, issue.5, pp.955-959, 2008.
DOI : 10.1016/j.catcom.2007.09.035

K. Hanna, . De-brauer-ch, P. Germain, J. M. Chovelon, and C. Ferronato, Degradation of pentachlorophenol in cyclodextrin extraction effluent using a photocatalytic process, Science of The Total Environment, vol.332, issue.1-3, pp.51-60, 2004.
DOI : 10.1016/j.scitotenv.2004.04.022

K. Hanna, S. Chiron, and M. Oturan, Coupling enhanced water solubilization with cyclodextrin to indirect electrochemical treatment for pentachlorophenol contaminated soil remediation, Water Research, vol.39, issue.12, pp.2763-2773, 2005.
DOI : 10.1016/j.watres.2005.04.057

K. Hanna, Sorption of two aromatic acids onto iron oxides: Experimental study and modeling, Journal of Colloid and Interface Science, vol.309, issue.2, pp.2007-309
DOI : 10.1016/j.jcis.2007.01.004

K. Hanna and C. Carteret, Sorption of 1-hydroxy-2-naphthoic acid to goethite, lepidocrocite and ferrihydrite: Batch experiments and infrared study, Chemosphere, vol.70, issue.2
DOI : 10.1016/j.chemosphere.2007.06.035

K. Hayward, Drinking water contaminant hit-list for US EPA. Water 21, p.145

Z. He, S. Song, H. Zhou, H. Ying, J. Chen et al., I. relative Black 5 decolorization by combined sonolysis and ozonation, Ultrasonics Sonochemistry, issue.14, pp.2007-298
URL : https://hal.archives-ouvertes.fr/hal-01203983

G. R. Helz, R. G. Zepp, and D. G. Crosby, Aquatic and Surface Photochemistry, 1994.

H. Ramirez, J. Costa, C. A. Madeira, L. M. Mata, G. Vicente et al., Fenton-like oxidation of Orange II solutions using heterogeneous catalysts based on saponite clay, Applied Catalysis B: Environmental, vol.71, issue.1-2, pp.44-56, 2007.
DOI : 10.1016/j.apcatb.2006.08.012

G. A. Henke, Bioremediation, Ullmann's Encyclopedia of Industrial Chemistry, Electronic Release, 2002.

J. M. Herrmann, Heterogeneous photocatalysis: fundamentals and applications to the removal of various types of aqueous pollutants, Catalysis Today, vol.53, issue.1, pp.115-129, 1999.
DOI : 10.1016/S0920-5861(99)00107-8

W. J. Hickey, S. M. Arnold, and R. F. Harris, Degradation of atrazine by Fenton's reagent: condition optimization and product quantification. Environmental Science and Technology, pp.29-2083, 1995.

A. Hirvonen, M. Trapido, J. Hentunen, and J. Tarhanen, Formation of hydroxylated and dimeric intermediates during oxidation of chlorinated phenols in aqueous solution, Chemosphere, vol.41, issue.8, pp.1211-1218, 2000.
DOI : 10.1016/S0045-6535(99)00548-2

P. H. Howard, Handbook of Environmental Fate and Exposure Data for Organic Chemical, vol. I, Large Production and Priority Pollutants, 1989.

C. L. Hsueh, Y. H. Huang, C. C. Wang, and C. Y. Chen, Degradation of azo dyes using low iron concentration of Fenton and Fenton-like system, Chemosphere, vol.58, issue.10, pp.2005-1409
DOI : 10.1016/j.chemosphere.2004.09.091

C. P. Huang, C. Dong, and Z. Tang, Advanced chemical oxidation: Its present role and potential future in hazardous waste treatment, Waste Management, vol.13, issue.5-7, pp.361-377, 1993.
DOI : 10.1016/0956-053X(93)90070-D

H. H. Huang, M. C. Lu, and J. N. Chen, Catalytic decomposition of hydrogen peroxide and 2-cholorphoen with iron oxides, Water Research, issue.35, pp.2291-2299, 2001.

S. G. Huling, R. G. Arnorld, R. A. Sierka, P. K. Jones, and D. D. Fine, Contaminant Adsorption and Oxidation via Fenton Reaction, Journal of Environmental Engineering, vol.126, issue.7, pp.2000-595
DOI : 10.1061/(ASCE)0733-9372(2000)126:7(595)

N. H. Ince, M. I. Stefan, and J. R. Bolton, Abstract, Journal of Advanced Oxidation Technologies, vol.2, issue.3, pp.442-448
DOI : 10.1515/jaots-1997-0312

I. Pariente, M. Martínez, F. Melero, J. A. Botas, J. Á. Velegraki et al., Heterogeneous photo-Fenton oxidation of benzoic acid in water: Effect of operating conditions, reaction by-products and coupling with biological treatment, Applied Catalysis B: Environmental, vol.85, issue.1-2, pp.24-32, 2008.
DOI : 10.1016/j.apcatb.2008.06.019

V. V. Ishtchenko, K. D. Huddersman, and R. F. Vitkovskaya, Part 1. Production of a modified PAN fibrous catalyst and its optimisation towards the decomposition of hydrogen peroxide, Applied Catalysis A: General, vol.242, issue.1, pp.2003-123
DOI : 10.1016/S0926-860X(02)00511-2

R. Jaina, M. Mathura, S. Sikarwara, and A. Mittal, Removal of the hazardous dye rhodamine B through photocatalytic and adsorption treatments, Journal of Environmental Management, vol.85, issue.4, pp.956-964, 2007.
DOI : 10.1016/j.jenvman.2006.11.002

G. G. Jayson, B. J. Parsons, and A. J. Swallow, Oxidation of ferrous ions by perhydroxyl radicals, Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases, vol.69, issue.0, pp.1973-236
DOI : 10.1039/f19736900236

T. L. Johnson, W. Fish, Y. A. Gorby, and P. G. Tratnyek, Degradation of carbon tetrachloride by iron metal: Complexation effects on the oxide surface, Journal of Contaminant Hydrology, vol.29, issue.4, pp.379-398, 1998.
DOI : 10.1016/S0169-7722(97)00063-6

A. P. Jones and R. J. Watts, Dry Phase Titanium Dioxide-Mediated Photocatalysis: Basis for In Situ Surface Destruction of Hazardous Chemicals, Journal of Environmental Engineering, vol.123, issue.10, pp.147-1997
DOI : 10.1061/(ASCE)0733-9372(1997)123:10(974)

Y. W. Kang and K. Y. Hwang, Effects of reaction conditions on the oxidation efficiency in the Fenton process, Water Research, vol.34, issue.10, pp.34-2786, 2000.
DOI : 10.1016/S0043-1354(99)00388-7

T. Kayashima and T. Katayama, Oxalic acid is available as a natural antioxidant in some systems, Biochimica et Biophysica Acta (BBA) - General Subjects, vol.1573, issue.1, pp.1-3, 1573.
DOI : 10.1016/S0304-4165(02)00338-0

E. J. Keating, R. A. Brown, and E. S. Greenberg, Phenolic problems solved with hydrogen peroxide oxidation, Industrial Water Engineering, pp.22-27, 1978.

L. H. Keith and W. A. Telliard, Priority pollutants: a prospective view. Environmental Science and Technology, pp.416-424, 1979.

V. Khare, M. Mullet, K. Hanna, M. Blumers, M. Abdelmoula et al., Comparative studies of ferric green rust and ferrihydrite coated sand: Role of synthesis routes, Solid State Sciences, vol.10, issue.10, pp.1342-1351, 2008.
DOI : 10.1016/j.solidstatesciences.2008.01.033

J. K. Kim, F. Martinez, and I. S. Metcalfe, The beneficial role of use of ultrasound in heterogeneous Fenton-like system over supported copper catalysts for degradation of p-chlorophenol, Catalysis Today, vol.124, issue.3-4, pp.3-4, 2007.
DOI : 10.1016/j.cattod.2007.03.040

S. C. Kim, D. S. Kim, S. S. Oh, D. K. Lee, and Y. K. Yang, 76 Catalytic wet oxidation of dyehouse effluents with Cu/Al2O3 and Cu???Al pillared clay, Studies in Surface Science and Catalysis, issue.145, pp.2003-355
DOI : 10.1016/S0167-2991(03)80233-1

J. Kochany and E. Lipczynska-kochany, Application of the EPR spin-trapping technique for the investigation of the reactions of carbonate, bicarbonate, and phosphate anions with hydroxyl radicals generated by the photolysis of H2O2, Chemosphere, vol.25, issue.12, pp.1992-1769
DOI : 10.1016/0045-6535(92)90018-M

S. H. Kong, R. J. Watts, and J. H. Choi, Treatment of petroleum-contaminated soils using iron mineral catalyzed hydrogen peroxide, Chemosphere, vol.37, issue.8, pp.1473-1482, 1998.
DOI : 10.1016/S0045-6535(98)00137-4

W. H. Koppenol, The centennial of the Fenton reaction, Free Radical Biology and Medicine, vol.15, issue.6, p.148
DOI : 10.1016/0891-5849(93)90168-T

W. H. Koppenol, J. Butler, and J. W. Van-leeuwen, THE HABER-WEISS CYCLE, Photochemistry and Photobiology, vol.64, issue.4-5, pp.655-660, 1978.
DOI : 10.1016/0014-5793(76)80550-9

M. L. Kremer and G. Stein, The catalytic decomposition of hydrogen peroxide by ferric perchlorate. Transactions of the Faraday Society, pp.959-973, 1959.

M. L. Kremer, Mechanism of the Fenton reaction. Evidence for a new intermediate, Physical Chemistry Chemical Physics, vol.1, issue.15, pp.3595-3605
DOI : 10.1039/a903915e

M. L. Kremer, Complex visas 'Free Radical' mechanism for the catalytic decomposition of H 2 O 2 by Fe 3+, International Journal of Chemical Kinetics, issue.17, pp.1299-1314, 1985.

K. H. Kung and M. B. Mcbride, Bonding of chlorophenols on iron and Aliminum oxides. Environmental Science and Technology, pp.25-702, 1991.

W. Kuo, Decolorizing dye wastewater with Fenton's reagent, Water Research, vol.26, issue.7, pp.881-886, 1992.
DOI : 10.1016/0043-1354(92)90192-7

H. Ku?i?, N. Koprivanac, and I. Selanec, Fe-exchanged zeolite as the effective heterogeneous Fenton-type catalyst for the organic pollutant minimization: UV irradiation assistance, Chemosphere, vol.65, issue.1, pp.65-73, 2006.
DOI : 10.1016/j.chemosphere.2006.02.053

E. V. Kuznetsova, E. N. Savinov, L. A. Vostrikova, and V. N. Parmon, Heterogeneous catalysis in the Fenton-type system FeZSM-5/H2O2, Applied Catalysis B: Environmental, vol.51, issue.3, pp.51-165, 2004.
DOI : 10.1016/j.apcatb.2004.03.002

W. P. Kwan and B. M. Volker, Rates of Hydroxyl Radical Generation and Organic Compound Oxidation in Mineral-Catalyzed Fenton-like Systems, Environmental Science & Technology, vol.37, issue.6, pp.2003-1150
DOI : 10.1021/es020874g

W. P. Kwan and B. M. Voelker, Influence of Electrostatics on the Oxidation Rates of Organic Compounds in Heterogeneous Fenton Systems, Environmental Science & Technology, vol.38, issue.12, pp.38-3425, 2004.
DOI : 10.1021/es034676g

W. P. Kwan and B. M. Voelker, Decomposition of hydrogen peroxide and organic compounds in the presence of dissolved iron and ferrihydrite. Environmental Science and Technology, pp.1467-1476, 2002.

B. G. Kwon, L. D. Kang, N. Yoon, and J. , Characteristics of p-chlorophenol oxidation by Fenton's reagent, Water Research, vol.33, issue.9, pp.2110-2118, 1999.
DOI : 10.1016/S0043-1354(98)00428-X

B. G. Kwon, E. Kim, and J. H. Lee, Pentachlorophenol decomposition by electron beam process enhanced in the presence of Fe(III)-EDTA, Chemosphere, vol.74, issue.10, pp.1335-1339, 2009.
DOI : 10.1016/j.chemosphere.2008.11.049

K. Lagarec and D. G. Rancourt, Extended Voigt-based analytic lineshape method for determining N-dimensional correlated hyperfine parameter distributions in Mössbauer spectroscopy. Nuclear Instruments and Methods in Physics Research Section B : Beam Interactions with Materials and Atoms, pp.266-280, 1997.

O. Legrini, E. Oliveros, and A. M. Braun, Photochemical processes for water treatment, Chemical Reviews, vol.93, issue.2, pp.671-698, 1993.
DOI : 10.1021/cr00018a003

L. Lei, X. Hu, H. P. Chu, G. Chen, and P. L. Yue, Catalytic wet air oxidation of dyeing and printing wastewater, Water Science and Technology, issue.35, pp.311-319, 1997.

S. Letaief, B. Casal, P. Aranda, M. A. Mart?´n-luengo, and E. Ruiz-hitzky, Fe-containing pillared clays as catalysts for phenol hydroxylation, Applied Clay Science, vol.22, issue.6, pp.263-277, 2003.
DOI : 10.1016/S0169-1317(03)00079-6

F. B. Li, X. Z. Li, C. S. Liu, and T. X. Liu, Effect of alumina on photocatalytic activity of iron oxides for bisphenol A degradation, Journal of Hazardous Materials, vol.149, issue.1, pp.199-207, 2007.
DOI : 10.1016/j.jhazmat.2007.03.069

F. B. Li, X. Wang, Y. Li, C. Liu, F. Zeng et al., Enhancement of the reductive transformation of pentachlorophenol by polycarboxylic acids at the iron oxide???water interface, Journal of Colloid and Interface Science, vol.321, issue.2, pp.332-341, 2008.
DOI : 10.1016/j.jcis.2008.02.033

L. X. Li, Y. Abe, K. Kanagawa, T. Shoji, T. Mashino et al., Iron-chelating agents never suppress Fenton reaction but participate in quenching spin-trapped radicals, Analytica Chimica Acta, vol.599, issue.2, pp.599-315, 2007.
DOI : 10.1016/j.aca.2007.08.008

K. Z. Li, H. Wang, W. Y. Liu, and M. , Catalytic performance of cerium iron complex oxides for partial oxidation of methane to synthesis gas, Journal of Rare Earths, vol.26, issue.5, pp.705-710, 2008.
DOI : 10.1016/S1002-0721(08)60167-2

Y. C. Li, L. G. Bachas, and D. Bhattacharyya, Kinetics Studies of Trichlorophenol Destruction by Chelate-Based Fenton Reaction, Environmental Engineering Science, vol.22, issue.6, pp.22-756, 2005.
DOI : 10.1089/ees.2005.22.756

J. G. Lin and Y. S. Ma, Oxidation of 2-Chlorophenol in Water by Ultrasound/Fenton Method, Journal of Environmental Engineering, vol.126, issue.2, pp.130-137, 2000.
DOI : 10.1061/(ASCE)0733-9372(2000)126:2(130)

S. H. Lin and C. C. Lo, Fenton process for treatment of desizing wastewater, Water Research, vol.31, issue.8, pp.31-2050, 1997.
DOI : 10.1016/S0043-1354(97)00024-9

S. H. Lin and C. F. Peng, Treatment of textile wastewater by Fenton's reagent, Journal of Environmental Science and Health . Part A: Environmental Science and Engineering and Toxicology, vol.93, issue.1, pp.89-98, 1995.
DOI : 10.1021/ja00746a031

S. H. Lin, C. M. Lin, and H. G. Leu, Operating characterisitics and kinetic studies of surfactant wastewater treatment by Fenton oxidation, Water Research, issue.33, pp.1735-1741, 1999.

S. H. Lin and S. J. Ho, Treatment of high-strength industrial wastewater by wet air oxidation?a case study. Waste Manage, pp.71-78, 1997.

S. S. Lin and M. D. Gurol, Catalytic decomposition of hydrogen peroxide on iron oxide: kinetics, mechanism, and implications. Environmental Science and Technology, pp.32-1417, 1998.

R. M. Liou, S. H. Chen, M. Y. Hung, and C. S. Hsu, Catalytic oxidation of pentachlorophenol in contaminated soil suspensions by Fe+3-resin/H2O2, Chemosphere, vol.55, issue.9, pp.2004-1271
DOI : 10.1016/j.chemosphere.2003.12.015

E. Lipczynska-kochany, G. Sprah, and S. Harms, Influence of some groundwater and surface waters constituents on the degradation of 4-chlorophenol by the Fenton reaction, Chemosphere, vol.30, issue.1, pp.9-20, 1995.
DOI : 10.1016/0045-6535(94)00371-Z

E. Lipczynska-kochany and J. Kochany, Effect of humic substances on the Fenton treatment of wastewater at acidic and neutral pH, Chemosphere, vol.73, issue.5, pp.745-750, 2008.
DOI : 10.1016/j.chemosphere.2008.06.028

T. Liu, H. You, and Q. W. Chen, Heterogeneous photo-Fenton degradation of polyacrylamide in aqueous solution over Fe(III)???SiO2 catalyst, Journal of Hazardous Materials, vol.162, issue.2-3, p.151
DOI : 10.1016/j.jhazmat.2008.05.110

S. R. Logan, Redox reactions of organic radicals with ferrocene/ferricenium species in aqueous solution. Part 1. Radicals derived from carboxylic acids, Journal of the Chemical Society, Perkin Transactions 2, vol.2, issue.7, pp.751-754, 1989.
DOI : 10.1039/p29890000751

M. C. Lu, J. N. Chen, and H. H. Huang, Role of goethite dissolution in the oxidation of 2-chlorophenol with hydrogen peroxide, Chemosphere, vol.46, issue.1, pp.2002-131
DOI : 10.1016/S0045-6535(01)00076-5

M. C. Lu, Oxidation of chlorophenols with hydrogen peroxide in the presence of goethite, Chemosphere, vol.40, issue.2, pp.125-130, 1999.
DOI : 10.1016/S0045-6535(99)00213-1

M. S. Lucas and J. A. Peres, Decolorization of the azo dye Reactive Black 5 by Fenton and photo-Fenton oxidation. Dyes and Pigments, pp.236-244, 2006.

F. Lücking, H. Köser, M. Jank, and A. Ritter, Iron powder, graphite and activated carbon as catalysts for the oxidation of 4-chlorophenol with hydrogen peroxide in aqueous solution, Water Research, vol.32, issue.9, pp.32-2607, 1998.
DOI : 10.1016/S0043-1354(98)00016-5

F. Luck, Wet Air Oxidation: Past, Present and Future. Catalysis Today, pp.81-91, 1999.

T. Luo, Z. Ai, and L. Zhang, Fe@Fe2O3 core-shell nanowires as iron reagent

. Ni, and Cs(I) sorption on magnetite, Journal of Colloid and Interface Science, issue.211, pp.54-60, 1999.

F. Martínez, G. Calleja, J. A. Melero, and R. Molina, Iron species incorporated over different silica supports for the heterogeneous photo-Fenton oxidation of phenol, Applied Catalysis B: Environmental, vol.70, issue.1-4
DOI : 10.1016/j.apcatb.2005.10.034

A. E. Martell and R. M. Smith, Critical stability constants A, pp.204-211, 1974.
DOI : 10.1007/978-1-4615-6761-5

R. Matta, K. Hanna, and S. Chiron, Fenton-like oxidation of 2,4,6-trinitrotoluene using different iron minerals, Science of The Total Environment, vol.385, issue.1-3, pp.242-251, 2007.
DOI : 10.1016/j.scitotenv.2007.06.030

R. Matta, K. Hanna, and S. Chiron, Oxidation of phenol by green rust and hydrogen peroxide at neutral pH. Separation and Purification Technology, pp.61-152, 2008.

R. Matta, K. Hanna, T. Kone, and S. Chiron, Oxidation of 2,4,6-trinitrotoluene in the presence of different iron-bearing minerals at neutral pH, Chemical Engineering Journal, vol.144, issue.3, pp.453-458, 2008.
DOI : 10.1016/j.cej.2008.07.013

K. A. Mcallister, H. Lee, and J. T. Trevors, Microbial degradation of pentachlorophenol, Biodegradation, vol.174, issue.1, pp.1-40, 1996.
DOI : 10.1584/jpestics.8.419

D. B. Mcgregor, A. G. Brown, S. Howgate, D. Mcbride, C. Riach et al., Responses of the l5178y mouse lymphoma cell forward mutation assay. 5.27 coded chemicals, Environmental and Molecular Mutagenesis, issue.17, pp.196-219, 1991.

R. Mecozzi, L. D. Palma, D. Pilone, and L. Cerboni, Use of EAF dust as heterogeneous catalyst in Fenton oxidation of PCP contaminated wastewaters, Journal of Hazardous Materials, vol.137, issue.2, pp.886-892, 2006.
DOI : 10.1016/j.jhazmat.2006.03.002

A. I. Medalia and I. M. Kolthoff, Redox recipes. I. Reaction between ferrous iron and peroxides. General considerations, Journal of Polymer Science, vol.4, issue.3, pp.377-398
DOI : 10.1002/pol.1949.120040312

F. Mijangos, F. Varona, and N. Villota, Changes in solution color during phenol oxidation by Fenton reagent. Environmental Science and Technology, pp.40-5538, 2006.

W. P. Miller, L. W. Zelazny, and D. C. Martens, Dissolution of synthetic crystalline and noncrystalline iron oxides by organic acids, Geoderma, vol.37, issue.1, pp.1-13, 1986.
DOI : 10.1016/0016-7061(86)90039-X

C. M. Miller and R. L. Valentine, Mechanistic studies of surface catalyzed H2O2 decomposition and contaminant degradation in the presence of sand, Water Research, vol.33, issue.12, pp.2805-2816, 1999.
DOI : 10.1016/S0043-1354(98)00500-4

G. Mills and M. Hoffman, Photocatalytic degradation of pentachlorophenol on TiO 2 particles: identification of intermediates and mechanism of reaction. Environmental Science and Technology, pp.1681-1689, 1993.

J. C. Mirsalis, C. K. Tyson, K. L. Steinmetz, E. K. Loh, C. M. Hamilton et al., Measurement of unscheduled DNA synthesis and S-phase synthesis in rodent hepatocytes following in vivo treatment: Testing of 24 compounds, Environmental and Molecular Mutagenesis, vol.37, issue.3, pp.155-164, 1989.
DOI : 10.1007/978-1-4684-4664-7_8

A. K. Mittal and C. Venkobachar, Uptake of cationic dyes by sulfonated coal: sorption -153 mechanism . Industrial & Engineering Chemistry Research, pp.1472-1474, 1996.

J. G. Mueller, D. P. Middaugh, S. E. Lantz, and P. J. Chapman, Biodegradation of creosote and pentachlorophenol in contaminated groundwater: chemical and biological assessment, Applied and Environmental Microbiology, issue.57, pp.1277-1285, 1991.

E. Murad and J. H. Johnston, Mössbauer Spectroscopy Applied to, Inorganic ChemistryJ. Long, vol.2, 1987.

I. Muthuvel and M. Swaminathan, Photoassisted Fenton mineralisation of Acid Violet 7 by heterogeneous Fe(III)???Al2O3 catalyst, Catalysis Communications, vol.8, issue.7, pp.981-986, 2007.
DOI : 10.1016/j.catcom.2006.10.015

D. Naka, D. Kim, and T. J. Starthmann, Abiotic Reduction of Nitroaromatic Compounds by Aqueous Iron(II)???Catechol Complexes, Environmental Science & Technology, vol.40, issue.9, pp.3006-3012, 2006.
DOI : 10.1021/es060044t

K. Nakomoto, Infrared and Raman spectra of inorganic and coordination compounds, 1986.

D. Neff, L. Bellot-gurlet, P. Dillmann, S. Reger, and L. Legrand, Raman imaging of ancient rust scales on archaeological iron artefacts for long-term atmospheric corrosion mechanisms study, Journal of Raman Spectroscopy, vol.33, issue.10, pp.2006-1228
DOI : 10.1002/9783527613229

URL : https://hal.archives-ouvertes.fr/hal-00159091

F. K. Nesheiwat and A. G. Swanson, Clean contaminated sites using Fenton's reagent, Chemical Engineering Progress, vol.96, issue.4, pp.61-66, 2000.

E. Neyens and J. Baeyens, A review of classic Fenton???s peroxidation as an advanced oxidation technique, Journal of Hazardous Materials, vol.98, issue.1-3, pp.33-50, 2002.
DOI : 10.1016/S0304-3894(02)00282-0

C. E. Noradoun and I. F. Cheng, EDTA degradation induced by oxygen activation in a zero valent iron/air/water system, Environmental Science Technology, issue.39, pp.7158-7163, 2005.

B. Nowack, F. Kari, S. Hilger, and L. Sigg, Determination of Dissolved and Adsorbed EDTA Species in Water and Sediments by HPLC, Analytical Chemistry, vol.68, issue.3, pp.561-566, 1996.
DOI : 10.1021/ac9507505

B. Nowack and L. Sigg, Dissolution of Fe(III) (hyr)oxides by metal-EDTA complexes, Geochimica et Cosmochimica Acta, issue.61, pp.951-963, 1997.

L. C. Oliveira, M. Gonçalves, M. C. Guerreiro, T. C. Ramalho, J. D. Fabris et al., A new catalyst material based on niobia/iron oxide composite on the oxidation of organic contaminants in water via heterogeneous Fenton mechanisms, Applied Catalysis A: General, vol.316, issue.1, pp.316-117, 2007.
DOI : 10.1016/j.apcata.2006.09.027

R. Oliveira, M. F. Almeida, L. Santos, and L. M. Madeira, Experimental Design of 2,4-Dichlorophenol Oxidation by Fenton's Reaction, Industrial & Engineering Chemistry Research, vol.45, issue.4, pp.1266-1276, 2006.
DOI : 10.1021/ie0509544

M. P. Ormad, J. L. Ovelleiro, and J. Kiwi, Photocatalytic degradation of concentrated solutions of 2,4-dichlorophenol using low energy light -Identification of intermediates, Applied Catalysis B, issue.32, pp.157-166, 2001.

D. F. Othmer and R. E. Kirk, Encyclopedia of Chemical Technology, 1979.

J. Paasivirta, J. Sarkka, T. Leskijarvi, and A. Roos, Transportation and enrichment of chlorinated phenolic compounds in different aquatic food chains, Chemosphere, vol.9, issue.7-8, pp.441-456, 1980.
DOI : 10.1016/0045-6535(80)90030-2

G. A. Parks and P. L. Bruyn, The zero point charge of oxides, Physical Chemistry, issue.66, pp.1962-967

). E. Parkhomchuk-(-kuznetsova, M. P. Vanina, and S. Preis, The activation of heterogeneous Fenton-type catalyst Fe-MFI. Catalysis Communiaction, pp.381-385, 2008.

M. Pera-titus, V. García-molina, M. A. Baños, J. Giménez, and S. Esplugas, Degradation of chlorophenols by means of advanced oxidation processes: a general review, Applied Catalysis B: Environmental, vol.47, issue.4
DOI : 10.1016/j.apcatb.2003.09.010

S. Perathoner and G. Centi, Wet hydrogen peroxide catalytic oxidation (WHPCO) of organic waste in agro-food and industrial streams, Topics in Catalysis, vol.7, issue.80, pp.1-4, 2005.
DOI : 10.7202/705374ar

M. Perez, F. Torrades, A. Jose, X. Domenech, and J. Peral, Removal of organic contaminants in paper pulp treatment effluents under Fenton and photo-Fenton conditions, Applied Catalysis B: Environmental, vol.36, issue.1, pp.63-74, 2002.
DOI : 10.1016/S0926-3373(01)00281-8

B. R. Petigara, N. V. Blough, and A. C. Mignerey, Mechanisms of Hydrogen Peroxide Decomposition in Soils, Environmental Science & Technology, vol.36, issue.4, pp.639-645, 2002.
DOI : 10.1021/es001726y

J. Pignatello, E. Oliveros, and A. Mackay, Advanced Oxidation Processes for Organic Contaminant Destruction Based on the Fenton Reaction and Related Chemistry, Critical Reviews in Environmental Science and Technology, vol.27, issue.1, pp.2006-2007
DOI : 10.1021/j100647a006

J. J. Pignatello, Dark and photoassisted iron(3+)-catalyzed degradation of chlorophenoxy herbicides by hydrogen peroxide, Environmental Science & Technology, vol.26, issue.5, pp.944-951, 1992.
DOI : 10.1021/es00029a012

A. Pintar, G. Bercic, M. Besson, and P. Gallezot, Catalytic wet-air oxidation of industrial effluents: total mineralization of organics and lumped kinetic modelling, Applied Catalysis B: Environmental, vol.47, issue.3, pp.2004-143
DOI : 10.1016/j.apcatb.2003.08.005

URL : https://hal.archives-ouvertes.fr/hal-00007300

A. Pintar, M. Besson, and P. Gallezot, Catalytic wet air oxidation of Kraft bleach plant effluents in a trickle-bed reactor over a Ru/TiO2 catalyst, Applied Catalysis B: Environmental, vol.31, issue.4, pp.275-290, 2001.
DOI : 10.1016/S0926-3373(00)00288-5

URL : https://hal.archives-ouvertes.fr/hal-00007053

A. Pintar, M. Besson, P. Gallezot, J. Gibert, and D. Martin, Toxicity to Daphnia magna and Vibrio fischeri of Kraft bleach plant effluents treated by catalytic wet-air oxidation, Water Research, vol.38, issue.2, pp.289-300, 2004.
DOI : 10.1016/j.watres.2003.09.027

URL : https://hal.archives-ouvertes.fr/halsde-00154674

F. J. Potter and J. A. Roth, Oxidation of chlorinated phenols using Fenton reagent. Hazardous Waste and Hazardous Materials, pp.151-170, 1993.

J. Prousek, Advanced oxidation processes for water treatment. Chemical processes

H. W. Prengle, Ozone/UV oxidation of chlorinated compounds in water, Proc. Internat

S. Rahhal and H. W. Richter, Reduction of hydrogen peroxide by the Ferrous iron chelate of diethylenetriamine, pp.110-3126, 1988.

J. H. Ramirez, M. Lampinen, M. A. Vicente, C. A. Costa, and L. M. Madeira, Experimental Design to Optimize the Oxidation of Orange II Dye Solution Using a Clay-based -156

J. H. Ramirez, C. A. Costa, L. M. Madeira, G. Mata, M. A. Vicente et al., Fenton-like oxidation of Orange II solutions using heterogeneous catalysts based on saponite clay Applied Catalysis B: Environmental, pp.44-56, 2007.

J. H. Ramirez, F. J. Maldonado-hódar, A. F. Pérez-cadenas, C. Moreno-castilla, C. A. Costa et al., Azo-dye Orange II degradation by heterogeneous Fenton-like reaction using carbon-Fe catalysts, Applied Catalysis B: Environmental, vol.75, issue.3-4, pp.75-78, 2007.
DOI : 10.1016/j.apcatb.2007.05.003

K. Rajeshwar, M. E. Osugi, W. Chanmanee, C. R. Chenthamarakshan, M. V. Zanoni et al., Heterogeneous photocatalytic treatment of organic dyes in air and aqueous media, Journal of Photochemistry and Photobiology C: Photochemistry Reviews, vol.9, issue.4, pp.2008-171
DOI : 10.1016/j.jphotochemrev.2008.09.001

S. D. Richardson, C. S. Wilson, and K. A. Rusch, Use of rhodamine water tracer in the marshland upwelling system. Ground Water, pp.42-678, 2004.

F. J. Rivas, F. J. Beltran, J. Frades, and P. Buzeda, Oxidation of p-hydroxybenzoic acid by Fenton's reagent, Water Research, vol.35, issue.2, pp.387-393, 2001.
DOI : 10.1016/S0043-1354(00)00285-2

M. Rios-enriquez, N. Shahin, C. Durán-de-bazúa, J. Lang, E. Oliveros et al., Optimization of the heterogeneous Fenton-oxidation of the model pollutant 2,4-xylidine using the optimal experimental design methodology. Solar Energy, pp.77-491, 2004.

J. Rochat, P. Demenge, and J. C. Rerat, Toxicologic study of a fluorescent tracer: rhodamine b, Toxicological European Research, vol.1978, issue.1, pp.23-26

C. S. Rodriguesa, L. M. Madeirab, and R. A. Boaventura, Optimization of the azo dye Procion Red H-EXL degradation by Fenton's reagent using experimental design, Journal of Hazardous Materials, vol.164, issue.2-3
DOI : 10.1016/j.jhazmat.2008.08.109

S. Sabhi and J. Kiwi, Degradation of 2,4-dichlorophenol by immobilized iron catalysts, Water Research, vol.35, issue.8, 1994.
DOI : 10.1016/S0043-1354(00)00460-7

A. Santos, P. Yustos, A. Quintanilla, S. Rodríguez, and F. García-ochoa, Route of the catalytic oxidation of phenol in aqueous phase, Applied Catalysis B: Environmental, vol.39, issue.2, pp.2002-97
DOI : 10.1016/S0926-3373(02)00087-5

D. T. Sawyer and T. S. Valentine, How super is superoxide. Accounts Chemical Research, pp.393-400, 1981.

K. Schellenberg, C. Leunberger, and R. P. Schwarzenbach, Sorption of chlorinated phenols by natural sediments and aquifer materials, Environmental Science & Technology, vol.18, issue.9, pp.652-657, 1984.
DOI : 10.1021/es00127a005

U. Schwertmann and R. M. Cornell, Iron Oxides in Laboratory, Soil Science, vol.156, issue.5, 2000.
DOI : 10.1097/00010694-199311000-00012

D. L. Sedlak and A. W. Andren, Oxidation of chlorobenzene with Fenton reagent. Environmental Science and Technology, pp.777-782, 1991.

C. Seignez, C. Pulgarin, and P. Peringer, Degradation of industrial organic pollutants. Electrochemical and biological treatment and combined treatment, pp.25-30, 1992.

Y. K. Seol and I. Javandel, Citric acid-modified Fenton???s reaction for the oxidation of chlorinated ethylenes in soil solution systems, Chemosphere, vol.72, issue.4, pp.537-542, 2008.
DOI : 10.1016/j.chemosphere.2008.03.052

H. H. Seung, B. Veriansyah, J. D. Kim, and J. C. Lee, Pentachlorophenol oxidation rates in supercritical water, Journal of Environmental Science and Health Part A, issue.42, pp.2007-2105

M. F. Sevimli and C. Kinacl, Decolorization of textile wastewater by ozonation and Fenton's process. Water Science Technology, pp.45-279, 2002.

R. A. Sheldon and J. K. Kochi, Metal-catalyzed Oxidation of Organic Compounds, 1980.

H. L. Sheng and C. L. Cho, Fenton process for treatment of desizing wastewater, Water Research, issue.31, pp.2050-2056, 1997.

T. K. Sherwood, R. L. Pigford, and C. Wilke, Mass Transfer, p.158

F. Shi, M. K. Tse, M. M. Pohl, J. Radnik, A. Brückner et al., Nano-iron oxide-catalyzed selective oxidations of alcohols and olefins with hydrogen peroxide, Journal of Molecular Catalysis A: Chemical, vol.292, issue.1-2, pp.28-35, 2008.
DOI : 10.1016/j.molcata.2008.06.008

M. Shiavello, Photocatalysis and environment : trends and applications, NATO ASI Series C, Kluwer Academic publischers, 1987.
DOI : 10.1007/978-94-009-3015-5

T. Shimada, H. Yamazaki, M. Mimura, Y. Inui, and F. P. Guengerich, Interindividual variations in human liver cytochrome P-450 enzymes involved in the oxidation of drugs, carcinogens, toxic chemicals: studies with liver microsomes of 30 Japanese, 30 Caucasians, Journal of Pharmacology and Experimental Therapy, vol.270, pp.414-423, 1994.

S. Shin, H. Yoon, and J. Jang, Polymer-encapsulated iron oxide nanoparticles as highly efficient Fenton catalysts. Catalysis Communications, pp.178-182, 2008.

G. B. Shulpin, M. M. Bochkova, G. V. Nizova, and N. B. Kozlova, Aerobic photodegradation of phenols in aqueous solutions promoted by metal compounds, Applied Catalysis B: Environmental, vol.12, issue.1, pp.1997-1998
DOI : 10.1016/S0926-3373(96)00064-1

L. Sigg and W. Stumm, The interactions of anions and weak acids with the hydrous goethite surface. Colloids Surfaces, pp.101-117, 1981.

W. J. Song, M. Cheng, J. Ma, W. Ma, C. Chen et al., Decomposition of Hydrogen Peroxide Driven by Photochemical Cycling of Iron Species in Clay, Environmental Science & Technology, vol.40, issue.15, pp.40-4782, 2006.
DOI : 10.1021/es060624q

D. M. Sonnen, R. S. Reiner, R. H. Atalla, and I. A. Weinstock, Degradation of pulpmill effluent by oxygen and polyoxometalate, a multipurpose delignification and wet air oxidation catalyst, Industrial and Engineering Chemistry Research, issue.36, pp.4134-4142, 1997.

J. T. Spadaro, L. Isabelle, and V. Renganathan, Hydroxyl radical mediated degradation of azo dyes: evidence for benzene generation, Environmental Science & Technology, vol.28, issue.7, pp.1389-1393, 1994.
DOI : 10.1021/es00056a031

T. J. Strathmann and A. T. Stone, :?? Influence of Organic Ligands and Natural Organic Matter, Environmental Science & Technology, vol.36, issue.23, p.159
DOI : 10.1021/es0205939

W. Stumm, Chemistry of the Solid-Water Interface, p.428, 1992.

W. Stumm, Reactivity at the mineral-water interface: dissolution and inhibition. Colloids and Surfaces A: Physiochemical and Engineering Aspects, pp.143-166, 1997.

B. V. Sturzenegger and J. Hoigne, Photometric method for the determination of low concentration of hydrogen peroxide by the peroxidase catalyzed oxidation of N,N-Diethyl p-Phenylenedlamine (DPD) Water Research, pp.1109-1115, 1988.

Y. F. Sun and J. J. Pignatello, Chemical treatment of pesticide wastes Evaluation of Fe(III) chelate for catalytic hydrogen peroxide oxidation of 2,4-D at circumneutral pH, Journal of Agricultural Food Chemistry, issue.40, pp.1992-322

Y. F. Sun and J. J. Pignatello, Photochemical reactions involved in the total mineralization of 2,4-D by Fe 3+, pp.304-310, 1993.

D. Tabet, M. Saidi, M. Houari, P. Pichat, and H. Khalaf, Fe-pillared clay as a Fenton-type heterogeneous catalyst for cinnamic acid degradation, Journal of Environmental Management, vol.80, issue.4, pp.342-346, 2006.
DOI : 10.1016/j.jenvman.2005.10.003

H. Tamura, K. Goto, T. Yotsuyanagi, and M. Nagayama, Spectroscopic determination of iron with 1,10-phenantroline in the presence of large amounts of iron, Talanta, issue.21, pp.1974-314

W. Z. Tang and S. Tassos, Oxidation kinetics and mechanisms of trihalomethanes by Fenton's reagent. Water Research, pp.31-1117, 1997.

W. Z. Tang and R. Z. Chen, Decolorization kinetics and mechanisms of commercial dyes by H 2 O 2 /iron powder system, Chemosphere, issue.32, pp.947-958, 1996.

G. Tachiev, J. A. Roth, and A. R. Bowers, Kinetics of hydrogen peroxide decomposition with complexed and ?free? iron catalysts, International Journal of Chemical Kinetics, vol.4, issue.3, pp.24-35, 2000.
DOI : 10.1002/kin.550220907

A. L. Teel and R. J. Watts, Degradation of carbon tetrachloride by modified Fenton???s reagent, Journal of Hazardous Materials, vol.94, issue.2, pp.179-189, 2002.
DOI : 10.1016/S0304-3894(02)00068-7

M. Tekba?, C. Yatmaz, H. Bekta?, and N. , Heterogeneous photo-Fenton oxidation of reactive azo dye solutions using iron exchanged zeolite as a catalyst, Microporous and Mesoporous Materials, pp.594-602, 2008.
DOI : 10.1016/j.micromeso.2008.03.001

H. Y. Thomas and S. J. Traina, Cr(VI) Reduction and Immobilization by Magnetite under Alkaline pH Conditions: The Role of Passivation, Environmental Science Technology, issue.39, pp.2005-4499

M. Tokumura, R. Nakajima, H. T. Znad, and Y. Kawase, Chemical absorption process for degradation of VOC gas using heterogeneous gas???liquid photocatalytic oxidation: Toluene degradation by photo-Fenton reaction, Chemosphere, vol.73, issue.5, pp.73-768, 2008.
DOI : 10.1016/j.chemosphere.2008.06.021

B. W. Tyre, R. J. Watts, and G. C. Miller, Treatment of four biorefractory containinats in solis using catalyzed hydrogen peroxide, Journal of Environmental Quality, issue.20, pp.832-838, 1991.

R. L. Valentine and H. C. Wang, Iron Oxide Surface Catalyzed Oxidation of Quinoline by Hydrogen Peroxide, Journal of Environmental Engineering, vol.124, issue.1, pp.31-38, 1998.
DOI : 10.1061/(ASCE)0733-9372(1998)124:1(31)

J. Valenzuela, U. Bumann, R. Ce´spedes, L. Padilla, and B. Gonza´lez, Degradation of chlorophenols by alcaligenes eutrophus JMP134(pJP4) in bleached Kraft Mill effluent Applied and Environment Microbiology, pp.227-232, 1997.

R. Venkatadri and R. W. Peters, Chemical oxidation technologies: ultraviolet light/hydrogen peroxide, Fenton's reagent and titanium dioxide-assisted photocatalysis. Hazardous Waste and Hazardous Material, pp.107-149, 1993.

H. K. Veschueren, Handbook of Environmental Data on Organic Chemicals, VNR, 1983.

B. M. Voelker and B. Sulzberger, Iron redox cycling in surface waters: effects of humic substances and light. Environmental Science Technology, pp.1004-1011, 1997.

V. Sonntag, C. Schuchmann, and H. P. , Peroxyl radicals in aqueous solutions, pp.173-234161, 1997.

C. Walling, Fenton's reagent revisited, Accounts of Chemical Research, vol.8, issue.4, pp.125-131
DOI : 10.1021/ar50088a003

C. Walling and M. Cleary, Oxygen evolution as a critical test of mechanism in the ferric-ion catalyzed decomposition of hydrogen peroxide, International Journal of Chemical Kinetics, vol.72, issue.4, pp.595-601
DOI : 10.1002/kin.550090408

C. Walling and K. Amarnath, Oxidation of mandelic acid by Fenton's reagent, Journal of the American Chemical Society, vol.104, issue.5, pp.1085-1089, 1982.
DOI : 10.1021/ja00369a005

C. Walling and A. Goosen, Mechanism of the ferric ion catalysed decomposition of hydrogen peroxide: effects of organic substrate, Journal of American Chemical Society, issue.9, pp.95-2987, 1973.

C. Walling and S. Kato, Oxidation of alcohols by Fenton's reagent. Effect of copper ion, Journal of the American Chemical Society, vol.93, issue.17, pp.4275-4281, 1971.
DOI : 10.1021/ja00746a031

W. A. Waters, The chemistry of free radicals, Oxford: Oxford, 1946.

R. J. Watts, M. D. Udell, P. A. Rauch, and S. W. Leung, Treatment of PCP-contaminated soils using Fenton reagent. Hazardous Waste and Hazardous Material, pp.335-345, 1990.

R. J. Watts, M. K. Foget, S. H. Kong, and A. L. Teel, Hydrogen peroxide decomposition in model subsurface systems, Journal of Hazardous Materials, vol.69, issue.2, pp.229-243, 1999.
DOI : 10.1016/S0304-3894(99)00114-4

R. J. Watts, M. D. Udell, S. Kong, and S. W. Leung, Fenton-like soil remediation catalysed by naturally occurring iron minerals, Environmental Engineering Science, issue.16, pp.93-103, 1999.

R. C. Wegman and H. H. Van-den-broek, Chlorophenols in river sediment in The Netherlands, Water Research, vol.17, issue.2, p.17, 1983.
DOI : 10.1016/0043-1354(83)90103-3

H. Wieland and W. Franke, ??ber den Mechanismus der Oxydationsvorg??nge. XII. Die Aktivierung des Hydroperoxyds durch Eisen, Justus Liebig's Annalen der Chemie, vol.153, issue.1, pp.1-70, 1927.
DOI : 10.1042/bj0200217

I. B. Will, J. E. Moraes, and A. C. Teixeira, Photo-Fenton degradation of wastewater containing organic compounds in solar reactors. Separation and Purification -162

D. M. Willberg, P. S. Lang, R. H. Höchemer, A. Kratel, and M. R. Hoffmann, Degradation of 4-chlorophenol, 3,4-dichloroaniline, and 2,4,6-trinitrotoluene in an electrohydraulic discharge reactor. Environmental Science Technology, pp.2526-2534, 1996.

D. A. Wink, R. W. Nims, M. F. Desrosiers, P. C. Ford, and L. K. Keefer, A Kinetic investigation of intermediates formed during the Fenton reagent mediated degradation of N-nitrosodimethyl amine: evidence for an oxidative pathway not involving hydroxyl radical, Chemical Research in Toxicology, issue.4, pp.510-512, 1991.

J. J. Wu, M. Muruganandham, J. S. Yang, and S. S. Lin, Oxidation of DMSO on goethite catalyst in the presence of H 2 O 2 at neutral pH, Catalysis Communications, issue.7, pp.901-906, 2006.

S. H. Xuan, L. Y. Hao, W. Q. Jiang, X. L. Gong, Y. Hu et al., Preparation of water-soluble magnetite nanocrystals through hydrothermal approach, Journal of Magnetism and Magnetic Materials, vol.308, issue.2, pp.210-213, 2007.
DOI : 10.1016/j.jmmm.2006.05.017

X. Xue, K. Hanna, M. Abdelmoula, and N. Deng, Adsorption and oxidation of PCP on the surface of magnetite: Kinetic experiments and spectroscopic investigations, Applied Catalysis B: Environmental, vol.89, issue.3-4
DOI : 10.1016/j.apcatb.2008.12.024

S. J. Yang, H. He, D. Wu, D. Chen, X. Liang et al., Decolorization of methylene blue by heterogeneous Fenton reaction using Fe3???xTixO4 (0???x???0.78) at neutral pH values, Applied Catalysis B: Environmental, vol.89, issue.3-4, p.29, 2009.
DOI : 10.1016/j.apcatb.2009.01.012

S. J. Yang, D. Hongping-he, D. Wu, X. Chen, Z. Liang et al., Decolorization of methylene blue by heterogeneous Fenton reaction using Fe 3?x Ti x O 4 (0 ? x ? 0.78) at neutral pH values, Applied Catalysis B: Environmental, p.29, 2009.

G. Zelmanov and R. Semiat, Phenol oxidation kinetics in water solution using iron(3)-oxide-based nano-catalysts. Water Research, pp.42-3848, 2008.

R. G. Zepp, B. C. Faust, and J. Hoigne, Hydroxyl radical formation in aqueous reactions (pH 3-8) of iron(II) with hydrogen peroxide: the photo-Fenton reaction, Environmental Science & Technology, vol.26, issue.2, pp.1992-313
DOI : 10.1021/es00026a011

C. J. Zhang, C. Richard, and A. Catlow, The mechanism of propene oxidation to acrolein on iron antimony oxide, Journal of Catalysis, vol.259, issue.1, pp.17-25, 2008.
DOI : 10.1016/j.jcat.2008.06.027

Y. Zhang, N. Kallay, and E. Matijevic, Interaction of metal hydrous oxides with chelating agents. 7. Hematite-oxalic acid and -citric acid systems, Langmuir, vol.1, issue.2, pp.201-206, 1985.
DOI : 10.1021/la00062a004

Y. Zhang, X. Dou, J. Liu, M. Yang, L. Zhang et al., Decolorization of reactive brilliant red X-3B by heterogeneous photo-Fenton reaction using an Fe?Ce bimetal catalyst Catalysis Today, pp.3-4, 2007.

T. Zhou, X. Lu, J. Wang, F. Wong, and Y. Li, Rapid decolorization and mineralization of simulated textile wastewater in a heterogeneous Fenton like system with/without external energy, Journal of Hazardous Materials, vol.165, issue.1-3, 2008.
DOI : 10.1016/j.jhazmat.2008.09.100

T. Zhou, Y. Li, F. S. Wong, and L. Xi, Enhanced degradation of 2,4-dichlorophenol by ultrasound in a new Fenton like system

W. Zhu, Y. Bin, Z. Li, Z. Jiang, and T. Yin, Application of catalytic wet air oxidation for the treatment of H-acid manufacturing process wastewater, Water Research, vol.36, issue.8, pp.1947-1954, 2002.
DOI : 10.1016/S0043-1354(01)00419-5