Electrosynthesized iridium oxide-polymer nanocomposite thin films for electrocatalytic oxidation of arsenic(III)

Electrochimica Acta

Volumn 110, Issue , 2013, Pages 465-473

  Rivera, Juan Francisco ^a   Pignot Paintrand, Isabelle ^b,d   Pereira, Eduardo ^c   Rivas, Bernabé L ^c   Moutet, Jean Claude ^a  

^a UNIV GRENOBLE ALPES   (France)

^b CENTRE DE RECHERCHES SUR LES MACROMOLÉCULES VÉGÉTALES CERMAV CNRS   (France)

^c UNIVERSITY OF CONCEPCIÓN   (Chile)

^d LABORATOIRE DES MATÉRIAUX ET DU GÉNIE PHYSIQUE   (France)

Author keywords

Arsenic; Electrocatalytic oxidation; Iridium oxide composites; Nanomaterials; Ultrafiltration

Indexed keywords

AQUEOUS ELECTROLYTE; COMPLEXING AGENTS; ELECTRO-CATALYTIC OXIDATION; IRIDIUM OXIDES; NANOCOMPOSITE ELECTRODES; NANOCOMPOSITE THIN FILMS; QUATERNARY AMMONIUM; SUPPORTING ELECTROLYTE;

AROMATIC COMPOUNDS; ARSENIC; ELECTROCATALYSIS; ELECTROCATALYSTS; ELECTROLYTES; ELECTROPOLYMERIZATION; NANOCOMPOSITES; NANOSTRUCTURED MATERIALS; SYNTHESIS (CHEMICAL); TRANSMISSION ELECTRON MICROSCOPY; ULTRAFILTRATION;

CHEMICALS REMOVAL (WATER TREATMENT);

EID: 84888340611     PISSN: 00134686     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.electacta.2013.04.056     Document Type: Article

References (49)

1. D.K. Nordstrom Worldwide occurrences of arsenic in ground water Science 296 2002 2143
2. World Health Organization website: http://www.who.int/water-sanitation- health/publications/2011/dwq-guidelines/en/index.html.
3. U.S. Environmental Protection Agency, website: www.epa.gov/safewater/ arsenic.html.
4. V. Lenoble, O. Bouras, V. Deluchat, B. Serpaud, and J. Bollinger Arsenic adsorption onto pillared clays and iron oxides Journal of Colloid and Interface Science 255 2002 52
5. L. Vega, M. Styblo, R. Patterson, W. Cullen, C. Wang, and D. Germolec Differential effects of trivalent and pentavalent arsenicals on cell proliferation and cytokine secretion in normal human epidermal keratinocytes Toxicology and Applied Pharmacology 172 2001 225
6. E.O. Kartinen Jr., and C.J. Martin An overview of arsenic removal processes Desalination 103 1995 79
7. V.K. Gupta, A. Nayak, S. Agarwal, R. Dobhal, D.P. Uniyal, P. Singh, B. Sharma, S. Tyagi, and R. Singh Arsenic speciation analysis and remediation techniques in drinking water Desalination and Water Treatment 40 2012 231
8. V.K. Gupta, P.J.M. Carrott, M.M.L. Ribeiro Carrott, and Suhas Low cost adsorbents: growing approach to wastewater treatment - a review Critical Reviews in Environmental Science and Technology 39 2009 783
9. A. Voegelin, and S.J. Hug Catalyzed oxidation of arsenic(III) by hydrogen peroxide on the surface of ferrihydrite: an in situ ATR-FTIR study Environmental Science and Technology 37 2003 972
10. M.-J. Kim, and J. Nriagu Oxidation of arsenite in groundwater using ozone and oxygen Science of the Total Environment 247 2000 71
11. P. Frank, D. Clifford, Arsenic(III) oxidation and removal from drinking water, US Environmental Protection Agency Report, EPA-600-52-86r021 (1986).
12. 2 and their application for simultaneous oxidation of arsenite and sorption of arsenate Applied Catalysis B: Environmental 106 2011 46
13. M. Arienzo, J. Chiarenzelli, and R. Scrudato Removal of arsenic in aqueous solution by electrochemical peroxidation Fresenius Environment Bulletin 10 2001 731
14. M.T. Emett, and G.H. Khoe Photochemical oxidation of arsenic by oxygen and iron in acidic solutions Water Research 35 2001 649
15. 2 suspension: kinetics and mechanisms Environmental Science and Technology 36 2002 3872
16. S. Perez-Sicairos, S.W. Lin-Ho, and R.M. Felix Electrochemical oxidation of arsenites by an anode of reticulated vitreous carbon as previous step for removal ECS Transactions 3 2007 61
17. P. Ratna Kumar, S. Chaudhari, K.C. Khilar, and S.P. Mahajan Removal of arsenic from water by electrocoagulation Chemosphere 55 2004 1245
18. J.A.G. Gomes, P. Daida, M. Kesmez, M. Weir, H. Moreno, J.R. Parga, G. Irwin, H. McWhinney, T. Grady, E. Peterson, and D.L. Cocke Arsenic removal by electrocoagulation using combined Al-Fe electrode system and characterization of products Journal of Hazardous Materials 139 2007 220
19. X. Zhao, B. Zhang, H. Liu, and J. Qu Removal of arsenite by simultaneous electro-oxidation and electro-coagulation process Journal of Hazardous materials 184 2010 472
20. X. Zhao, B. Zhang, H. Liu, and J. Qu Simultaneous removal of arsenite and fluoride via an integrated electro-oxidation and electro-coagulation process Chemosphere 83 2011 726
21. I. Alil, V.K. Gupta, T.A. Khan, and M. Asim Removal of arsenate by electro-coagulation method using Al-Fe electrodes International Journal of Electrochemical Sciences 7 2012 1898
22. B.L. Rivas, M.C. Aguirre, E. Pereira, C. Bucher, G. Royal, D. Limosin, E. Saint-Aman, and J.-C. Moutet Off-Line coupled electrocatalytic oxidation and liquid phase polymer based retention (EO-LPR) techniques to remove arsenic from aqueous solutions Water Research 43 2009 515
23. J.A. Sánchez, B.L.S. Rivas, A. Pooley, L. Basaez, E. Pereira, I. Pignot-Paintrand, G. Royal, E. Saint-Aman, C. Bucher, and J.-C. Moutet Electrocatalytic oxidation of As(III) to As(V) using noble metal-polymer nanocomposites Electrochimica Acta 55 2010 4876
24. J.F. Rivera, C. Bucher, E. Saint-Aman, B.L. Rivas, M.C. Aguirre, J.A. Sánchez, I. Pignot-Paintrand, and J.-C. Moutet Removal of arsenite by coupled electrocatalytic oxidation at polymer-ruthenium oxide nanocomposite and polymer-assisted liquid phase retention Applied Catalysis B: Environmental 129 2013 130
25. B.L. Rivas, E. Pereira, and I. Moreno-Villoslada Water-soluble polymer-metal ion interactions Progress in Polymer Science 28 2003 173
26. B.L. Rivas, M.C. Aguirre, E. Pereira, J.-C. Moutet, and E. Saint-Aman Capability of cationic water-soluble polymers in conjunction with ultrafiltration membranes to remove arsenate ions Polymer Engineering and Science 47 2007 1256
27. J.A. Cox, S.E. Gadd, and B.K. Das Modification of glassy carbon with a stable film containing iridium oxide and palladium Journal of Electroanalytical Chemistry 256 1988 199
28. A. Salimi, M.E. Hyde, C.E. Banks, and R.G. Compton Boron doped diamond electrode modified with iridium oxide for amperometric detection of ultra trace amounts of arsenic(III) Analyst 129 2004 9
29. T.A. Ivandini, R. Sato, Y. Makide, A. Fujishima, and Y. Einega Electrochemical detection of arsenic(III) using iridium-implanted boron-doped diamond electrodes Analytical Chemistry 78 2006 6291
30. x in presence of Pb(II), Cd(II), Sb(III) and As(III) ECS Transactions 3 2007 1
31. B.L. Rivas, M.C. Aguirre, E. Pereira, C. Bucher, J.-C. Moutet, E. Saint-Aman, and G. Royal Efficient polymers in conjunction with membranes to remove As(V) generated in situ by electrocatalytic oxidation Polymers for Advanced Technologies 22 2011 414
32. S. Cosnier, A. Deronzier, J.-C. Moutet, and J.-F. Roland Alkylammonium and pyridinium group-containing polypyrroles, a new class of electronically conducting anion-exchange polymers Journal of Electroanalytical Chemistry 271 1989 69
33. I.M.F. de Oliveira, J.-C. Moutet, and S. Hamar-Thibault Electrocatalytic hydrogenation activity of palladium and rhodium microparticles dispersed in alkylammonium and pyridinium groups substituted polypyrrole films Journal of Materials Chemistry 2 1992 167
34. A. Deronzier, and J.-C. Moutet Polypyrrole films containing metal complexes: syntheses and applications Coordination Chemistry Reviews 147 1996 339 and references therein
35. D.R. Rosseinsky, N.J. Morse, R.C.T. Slade, G.B. Hix, R.J. Mortimer, and D.J. Walton Mechanisms of the chemical and electrochemical polymerizations of pyrrole compared by product spectrometry and conductivity loss effected by pyridine inhibition or by over-oxidation Electrochimica Acta 36 1991 733
36. J.E. Baur, and T.W. Spaine Electrochemical deposition of iridium(IV) oxide from alkaline solutions of iridium(III) oxide Journal of Electroanalytical Chemistry 443 1998 208
37. x/Ti electrodes in alkaline solutions Journal of Solid State Electrochemistry 11 2007 939
38. K. Yamanaka Anodically electrodeposited iridium oxide films (AEIROF) from alkaline solutions for electrochromic display devices Japanese Journal of Applied Physics 28 1989 632
39. M.A. Petit, and V. Plichon Anodic electrodeposition of iridium oxide films Journal of Electroanalytical Chemistry 444 1998 247
40. 2 film for electrocatalytic water oxidation Journal of Electroanalytical Chemistry 579 2005 83
41. Y. Zhao, N.M. Vargas-Barbosa, E.A. Hernandez-Pagan, and T.E. Mallouk Anodic deposition of colloidal oxide thin films from hexahydroxyiridate(IV) solutions Small 7 2011 2087
42. x nanoparticle film Journal of Physical Chemistry C 113 2009 12958
43. Y. Zhao, E.A. Hernandez-Pagan, N.M. Vargas-Barbosa, J.L. Dysart, and T.E. Mallouk A high yield synthesis of ligand-free iridium oxide nanoparticles with high electrocatalytic activity Journal of Physical Chemistry Letters 2 2011 402
44. J.D. Blakemore, N.D. Schley, M.N. Kushner-Lenhoff, A.M. Winter, F. D'Souza, R.H. Crabtree, and G.W. Brudwig Comparison of amorphous iridium-water-oxidation electrocatalysts prepared from soluble precursors Inorganic Chemistry 51 2012 7749
45. F. Jiao, and H. Frei Nanostructured manganese oxide clusters supported on mesoporous silica as efficient oxygen-evolving catalysts Chemical Communications 46 2010 2920
46. D. Walsh, Y.-Y. Kim, A. Miyamoto, and F.C. Meldrum Synthesis of macroporous calcium carbonate/magnetite nanocomposites and their application in photocatalytic water splitting Small 7 2011 2168
47. Y.-Y. Kim, F.C. Meldrum, and D. Walsh Biopolymer stabilized nanoparticles as co-catalysts for photocatalytic water oxidations Polymer Chemistry 2 2011 1375
48. M.-C. Chuang, and J.-A. Ho Efficient electrocatalytic oxidation of water: minimization of catalyst loading by an electrostatic assembly of hydrous oxide colloids RSC Advances 2 2012 4092
49. A. Salimi, H. Mamkhezri, R. Hallaj, and S. Soltanian Electrochemical detection of trace amount of arsenic(III) at glassy carbon electrode modified with cobalt oxide nanoparticles Sensors and Actuators B: Chemical 129 2008 246