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Chapter 4. Co-electrolysis of CO2 and H2O in Solid Oxide Cells 107 41. Adler SB, Reference electrode placement in thin solid electrolytes. Journal of the Electrochemical Society, (2002). 149(5): p. E166-E172-E166-E172. 42. BarfodR,HagenA,RamousseS,HendriksenPV,andMogensenM,Breakdownoflossesinthin electrolyte SOFCs. Fuel Cells, (2006). 6(2): p. 141-145. 43. Barfod R, Mogensen M, Klemenso T, Hagen A, Liu YL, and Hendriksen PV, Detailed characterization of anode-supported SOFCs by impedance spectroscopy. Journal of the Electrochemical Society, (2007). 154(4): p. B371-B378. 44. Jensen SH, Hjelm J, Hagen A, and Mogensen M, Electrochemical impedance spectroscopy as diagnostic tool, in Handbook of Fuel Cells – Fundamentals, Technology and Applications, W. Vielstich, H. Yokokawa, and H.A. Gasteiger, Editors. (2009), John Wiley & Sons, Ltd. 45. Jensen SH, Hauch A, Hendriksen PV, Mogensen M, Bonanos N, and Jacobsen T, A method to separate process contributions in impedance spectra by variation of test conditions. Journal of the Electrochemical Society, (2007). 154(12): p. B1325-B1330-B1325-B1330. 46. SchichleinH,MüllerAC,VoigtsM,KrügelA,andIvers-TifféeE,Deconvolutionofelectrochemical impedance spectra for the identification of electrode reaction mechanisms in solid oxide fuel cells. Journal of Applied Electrochemistry, (2002). 32(8): p. 875-882. 47. Leonide A, Sonn V, Weber A, and Ivers-Tiffee E, Evaluation and modeling of the cell resistance in anode-supported solid oxide fuel cells. Journal of the Electrochemical Society, (2008). 155(1): p. B36- B41-B36-B41. 48. Sonn V, Leonide A, and Ivers-Tiffee E, Combined Deconvolution and CNLS Fitting Approach Applied on the Impedance Response of Technical Ni/8YSZ Cermet Electrodes. Journal of the Electrochemical Society, (2008). 155(7): p. B675-B679. 49. Isenberg AO, Oxygen ion conduction of the oxides of magnesium, calcium, and aluminum by fluoride additions. Journal of the Electrochemical Society, (2006). 153(10): p. A1935-A1944. 50. Hauch A, Ebbesen SD, Jensen SH, and Mogensen M, Highly efficient high temperature electrolysis. Journal of Materials Chemistry, (2008). 18(20): p. 2331-2340. 51. Jiang Y and Virkar AV, Fuel composition and diluent effect on gas transport and performance of anode- supported SOFCs. Journal of the Electrochemical Society, (2003). 150(7): p. A942-A951. 52. Primdahl S and Mogensen M, Gas conversion impedance: A test geometry effect in characterization of solid oxide fuel cell anodes. Journal of the Electrochemical Society, (1998). 145(7): p. 2431-2438. 53. Jacobsen T, Hendriksen PV, and Koch S, Diffusion and conversion impedance in solid oxide fuel cells. Electrochimica Acta, (2008). 53(25): p. 7500-7508. 54. Primdahl S and Mogensen M, Gas diffusion impedance in characterization of solid oxide fuel cell anodes. Journal of the Electrochemical Society, (1999). 146(8): p. 2827-2833. 55. Hagen A, Barfod R, Hendriksen PV, Liu YL, and Ramousse S, Degradation of anode supported SOFCs as a function of temperature and current load. Journal of the Electrochemical Society, (2006). 153(6): p. A1165-A1171. 56. Jacobsen T and Mogensen M, The Course of Oxygen partial pressure and Electric potentials across an Oxide Electrolyte Cell. ECS Transactions, (2008). 13(26): p. 259-273.PDF Image | Electrolysis of CO2 and H2O
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