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Chapter 5. Aspects of Metal-YSZ Electrode Kinetics 168 9. Aaberg RJ, Tunold R, and Ødegård R, On the electrochemistry of metal-YSZ single contact electrodes. Solid State Ionics, (2000). 136-137: p. 707-712. 10. Kek D, Mogensen M, and Pejovnik S, A study of metal (Ni, pt, Au)/yttria-stabilized zirconia interface in hydrogen atmosphere at elevated temperature. Journal of the Electrochemical Society, (2001). 148(8): p. A878-A886. 11. Vels Jensen K, The Ni-YSZ interface: Structure, composition and electrochemical properties at 1000°C, Ph.D. thesis in Materials Research Department. (2002), Risø National Laboratory: Roskilde, Denmark. p. 111. 12. Lauvstad GO, Tunold R, and Sunde S, Electrochemical oxidation of CO on pt and Ni point electrodes in contact with an yttria-stabilized zirconia electrolyte - I. Modeling of steady-state and impedance behavior. Journal of the Electrochemical Society, (2002). 149(12): p. E497-E505. 13. Lauvstad GO, Tunold R, and Sunde S, Electrochemical oxidation of CO on pt and Ni point electrodes in contact with an yttria-stabilized zirconia electrolyte - II. Steady-state and impedance measurements. Journal of the Electrochemical Society, (2002). 149(12): p. E506-E514. 14. Høgh J, Influence of impurities on the H2/H2O/Ni/YSZ electrode, Ph.D. thesis in Materials Research Department / Department of Chemistry. (2005), Risø National Laboratory / The Technical University of Denmark: Roskilde, Denmark. p. 127. 15. Schmidt MS, Vels Hansen K, Norrman K, and Mogensen M, Three-phase-boundary dynamics at the Ni/ScYSZ interface. Solid State Ionics, (2009). 180(4-5): p. 431-438. 16. Bieberle A, The electrochemistry of solid oxide fuel cell anodes: Experiments, modelling, and simulations, thesis. (2000), Swiss Federal Institute of Technology,: Switzerland. 17. Habibzadeh B, Sukeshini AM, Becker B, and Jackson GS, CO Electrochemical Oxidation on Ni patterned Anodes for Assessing Solid Oxide Fuel Cell Kinetics. ECS Transactions, (2008). 11(33): p. 53-61. 18. MizusakiJ,TagawaH,SaitoT,YamamuraT,KamitaniK,HiranoK,etal.,Kineticstudiesofthereaction at the nickel pattern electrode on YSZ in H2---H2O atmospheres. Solid State Ionics, (1994). 70-71(Part 1): p. 52-58. 19. Yamamura T, Yoshitake H, Tagawa H, Mori N, Hirano K, Mizusaki J, et al. Experimental Evidence for Three phase Boundary as Active Site on Nickel/YSZ System. in 2nd Euro. Solid Oxide Fuel Cell Forum. (1996). 20. Yamamura T, Tagawa H, Saito T, Mizusaki J, Kamitani K, Hirano K, et al. Reaction Kinetics at the Nickel pattern Electrode on YSZ and its Dependence on Temperature. in 4th Int. Sympo. Solid Oxide Fuel Cells. (1995). 21. Bieberle A, Meier LP, and Gauckler LJ, The Electrochemistry of Ni pattern Anodes Used as Solid Oxide Fuel Cell Model Electrodes. Journal of the Electrochemical Society, (2001). 148(6): p. A646-A656. 22. Utz A, Stormer H, Leonide A, Weber A, and Ivers-Tiffee E, Degradation Effects of Ni patterned Anodes in H2/H2O Atmosphere. ECS Transactions, (2009). 25(2): p. 2013-2021. 23. Mizusaki J, Tagawa H, Saito T, Kamitani K, Yamamura T, Hirano K, et al., Preparation of Nickel pattern Electrodes on YSZ and Their Electrochemical properties in H2-H2O Atmospheres. Journal of the Electrochemical Society, (1994). 141(8): p. 2129-2134. 24. de Boer A, Hydrogen oxidation at porous nickel and nickel/yttria-stabilised zirconia cermet electrodes, Ph.D. thesis. (1998), University of Twente: The Netherlands. 25. Brown M, Primdahl S, and Mogensen M, Structure/Performance Relations for Ni/Yttria-Stabilized Zirconia Anodes for Solid Oxide Fuel Cells. Journal of the Electrochemical Society, (2000). 147(2): p. 475-485. 26. Bieberle A and Gauckler LJ, Ni-based SOFC anodes: Microstructure and electrochemistry. Zeitschrift Fur Metallkunde, (2001). 92(7): p. 796-802. 27. Mogensen M, Jensen KV, Jorgensen MJ, and Primdahl S, Progress in understanding SOFC electrodes. Solid State Ionics, (2002). 150(1-2): p. 123-129. 28. Setoguchi T, Okamoto K, Eguchi K, and Arai H, Effects of Anode Material and Fuel on Anodic Reaction of Solid Oxide Fuel Cells. Journal of the Electrochemical Society, (1992). 139(10): p. 2875-2880. 29. Bessler WG, Gewies S, and Vogler M, A new framework for physically based modeling of solid oxide fuel cells. ELECTROCHIMICA ACTA, (2007). 53(4): p. 1782-1800. 30. Bieberle A and Gauckler LJ, State-space modeling of the anodic SOFC system Ni, H2-H2O|YSZ. Solid State Ionics, (2002). 146(1-2): p. 23-41.PDF Image | Electrolysis of CO2 and H2O
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