Synthesis and characterization of electrocatalysts for the oxygen evolution in PEM water electrolysis

International Journal of Hydrogen Energy

Volumn 36, Issue 17, 2011, Pages 10474-10481

  Mayousse, E ^a   Maillard, F ^b   Fouda Onana, F ^a   Sicardy, O ^a   Guillet, N ^a  

^a CEA GRENOBLE   (France)

^b LEPMI   (France)

Author keywords

Adams fusion synthesis; Iridium oxides; Oxygen evolution reaction; PEM water electrolysis; Ruthenium oxides

Indexed keywords

ADAMS FUSION SYNTHESIS; IRIDIUM OXIDES; OXYGEN EVOLUTION REACTION; PEM WATER ELECTROLYSIS; RUTHENIUM OXIDES;

DESORPTION; ELECTROCATALYSTS; ELECTROLYTIC CELLS; GAS ADSORPTION; HYDROGEN; INDUCTIVELY COUPLED PLASMA; IRIDIUM; IRIDIUM COMPOUNDS; LIQUID MEMBRANE ELECTRODES; NITROGEN PLASMA; OXYGEN; PHASE SEPARATION; RUTHENIUM; SCANNING ELECTRON MICROSCOPY; SYNTHESIS (CHEMICAL); TIN; X RAY DIFFRACTION;

ELECTROLYSIS;

EID: 80051592097     PISSN: 03603199     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.ijhydene.2011.05.139     Document Type: Article

References (34)

1. x composite a CO-tolerant material? Electrochim Acta 52 2007 1958 1967 (Pubitemid 44958421)
2. x materials Electrochem Commun 11 2009 651 654
3. H. Wendt, E.V. Spinacé, A. Oliveira Neto, and M. Linardi Electrocatalysis and electrocatalysts for low temperature fuel cells: fundamentals, state of the art, research and development Quim Nova 28 2005 1066 1075 (Pubitemid 43104559)
4. S.A. Grigoriev, P. Millet, and V.N. Fateev Evaluation of carbon-supported Pt and Pd nanoparticles for the hydrogen evolution reaction in PEM water electrolysers J Power Sources 177 2008 281 285
5. Z. Galus, A. Bard, R. Parsons, and J. Jordan Standard potentials in aqueous solution 1985 Marcel Dekker New York p. 189
6. 2 nanoparticles Electrochim Acta 55 2010 1978 1984
7. L.R. Ma, S. Sui, and Y.C. Zhai Preparation and characterization of Ir/TiC catalyst for oxygen evolution J Power Sources 177 2008 470 477
8. 2 electrocatalysts for application in SPE electrolysers Electrochim Acta 54 2009 4844 4850
9. G. Chen, S.R. Bare, and T.E. Mallouka Development of supported bifunctional electrocatalysts for unitized regenerative fuel cells J Electrochem Soc 149 2002 1092 1099
10. z+ ions and Pt nanoparticles inside the membrane of a PEM fuel cell J Electrochem Soc 154 2007 B96 B105
11. 3Co/C cathodes in a 16 cells PEMFC stack: macro and microstructural changes and degradation mechanisms J Electrochem Soc 157 2010 B1887 B1895
12. S. Trasatti Electrocatalysis in the anodic evolution of oxygen and chlorine Electrochim Acta 29 1984 1503 1512
13. P. Millet, F. Andolfatto, and R. Durand Design and performance of a solid polymer electrolyte water electrolyzer Int J Hydrogen Energy 21 1996 87 93 (Pubitemid 126339846)
14. F. Andolfatto, R. Durand, A. Michas, P. Millet, and P. Stevens Solid polymer electrolyte water electrolysis: electrocatalysis and long-term stability Int J Hydrogen Energy 19 1994 421 427
15. Y. Zhang, C. Wang, N. Wan, Z. Liu, and Z. Mao Study on a novel manufacturing process of membrane electrode assemblies for solid polymer electrolyte water electrolysis Electrochem Commun 9 2007 667 670 (Pubitemid 46509861)
16. S.A. Grigoriev, V.I. Porembsky, and V.N. Fateev Pure hydrogen production by PEM electrolysis for hydrogen energy Int J Hydrogen Energy 31 2006 171 175 (Pubitemid 41827691)
17. E. Rasten, G. Hagen, and T. Tunold Electrocatalysis in water electrolysis with solid polymer electrolyte Electrochim Acta 48 2003 3945 3952
18. S. Trasatti Physical electrochemistry of ceramic oxides Electrochim Acta 36 1991 225 241 (Pubitemid 21734407)
19. L. Ma, S. Sui, and Y. Zha Investigations on high performance proton exchange membrane water electrolyzer Int J Hydrogen Energy 34 2009 678 684
20. 2 electrocatalysts for oxygen evolution in an SPE electrolyzer J Nanopart Res 2 2010
21. 2 anode electrocatalyst Int J Hydrogen Energy 35 2010 5558 5568
22. 4 as the corrosion product during oxygen evolution on ruthenium in acid media J Electroanal Chem 172 1984 211 219 (Pubitemid 14622837)
23. 2 oxides as anodic electrocatalysts for solid polymer electrolyte water electrolysis Electrochim Acta 54 2009 6250 6256
24. 2 for anodic oxygen evolution in acid media Electrochim Acta 31 1986 1311 1316 (Pubitemid 17467302)
25. S. Stucki, G.G. Scherer, S. Schlagowski, and E. Fischer PEM water electrolysers: evidence for membrane failure in 100kW demonstration plants J Appl Electrochem 28 1998 1041 1049 (Pubitemid 128509430)
26. 2 electrocatalytic powders for oxygen evolution reaction J New Mater Electrochem Syst 11 2008 105 108
27. 2 electrocatalytic powders Mater Chem Phys 94 2005 226 232 (Pubitemid 41491743)
28. 2 powders as oxygen evolution catalysts Electrochim Acta 51 2006 3161 3167
29. A.T. Marshall, B. Borrensen, G. Hagen, M. Tsypkin, and R. Tunold Hydrogen production by advanced proton exchange membrane (PEM) water electrolysers - reduced energy consumption by improved electrocatalysis Int J Hydrogen Energy 32 2007 431 436 (Pubitemid 44959539)
30. 2 powder catalysts for oxygen evolution reaction in proton exchange membrane water electrolysers. Int J Hydrogen Energy, doi:10.1016/j.ijhydene.2011.01.067, in press.
31. Rasten E. Electrocatalysis in water electrolysis with solid polymer electrolyte. Ph.D. thesis, NTNT, Trondheim, Norway.
32. 2 electrocatalysts for the oxygen evolution electrode Int J Hydrogen Energy 32 2007 2320 2324 (Pubitemid 47302631)
33. 5 oxide electrocatalysts J Electroanal Chem 589 2006 160 166
34. R. Adams, and R.L. Shriner Platinum oxide as a catalyst in the reduction of organic compounds. III. Preparation and properties of the oxide of platinum obtained by the fusion of chloroplatinic acid with sodium nitrate J Am Chem Soc 45 1923 2171 2179