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Chapter 6. Molybdate Based Ceramic Electrode Materials 213 27. Brown BW and Banks E, Conductivity of the Sodium Tungsten Bronzes. Physical Review, (1951). 84(3): p. 609. 28. Huibregtse EJ, Barker DB, and Danielson GC, Electrical properties of Sodium Tungsten Bronze. Physical Review, (1951). 84(1): p. 142. 29. Garif'yanov N, Khlebnikov S, Khlebnikov I, and Garifullin I, Superconductivity of sodium tungsten bronze with cubic structure. Czechoslovak Journal of Physics, (1996). 46(0): p. 855-856. 30. Wang ZL, Perovskite and Related Structure Systems, in Functional and smart materials: structural evolution and structure analysis. (1998), Springer - Verlag. p. 124. 31. Brixner LH, X-ray study and electrical properties of system BaxSr(1-x)MoO3. Journal of Inorganic and Nuclear Chemistry, (1960). 14(3-4): p. 225-230. 32. Maekawa T, Kurosaki K, Muta H, Uno M, and Yamanaka S, Thermal and electrical properties of perovskite-type strontium molybdate. Journal of Alloys and Compounds, (2005). 390(1-2): p. 314-317. 33. Madeira LM, Portela MF, and Mazzocchia C, Nickel Molybdate Catalysts and Their Use in the Selective Oxidation of Hydrocarbons. Catalysis Reviews: Science and Engineering, (2004). 46(1): p. 53 - 110. 34. KatribA,LeflaiveP,HilaireL,andMaireG,Molybdenumbasedcatalysts.I.MoO2astheactivespeciesin the reforming of hydrocarbons. Catalysis Letters, (1996). 38(1): p. 95-99. 35. Kubo J and Ueda W, Catalytic behavior of AMoOx (A = Ba, Sr) in oxidation of 2-propanol. Materials Research Bulletin, (2009). 44(4): p. 906-912. 36. Schulz R, Huot JY, Trudeau ML, Dignardbailey L, Yan ZH, Jin S, et al., Nanocrystalline Ni-Mo Alloys and their Application in Electrocatalysis. Journal of Materials Research, (1994). 9(11): p. 2998-3008. 37. Kawashima A, Akiyama E, Habazaki H, and Hashimoto K. Characterization of sputter-deposited Ni-Mo and Ni-W alloy electrocatalysts for hydrogen evolution in alkaline solution. (1997): Elsevier Science Sa Lausanne. 38. Hashimoto K, Sasaki T, Meguro S, and Asami K, Nanocrystalline electrodeposited Ni-Mo-C cathodes for hydrogen production. Materials Science and Engineering A, (2004). 375-377: p. 942-945. 39. Panek J and Budniok A, Ni plus Mo composite coatings for hydrogen evolution reaction. Surface and Interface Analysis, (2008). 40(3-4): p. 237-241. 40. FactSage 5.5 software. 41. Itoh M, Ohta I, and Inaguma Y, Valency pair and properties of 1:1 ordered perovskite-type compounds Sr2MMoO6 (M = Mn,Fe,Co). Materials Science and Engineering B, (1996). 41(1): p. 55-58. 42. Viola MC, Martinez-Lope MJ, Alonso JA, Velasco P, Martinez JL, Pedregosa JC, et al., Induction of colossal magnetoresistance in the double perovskite Sr2CoMoO6. Chemistry of Materials, (2002). 14(2): p. 812- 818. 43. Shi JB, Peng PH, Fan YY, Lee CY, Lai WT, Ku HC, et al., Preparation and physical properties in the double perovskite Ba2Fe1+xMo1-xO6. Physica B: Condensed Matter, (2003). 329-333(Part 2): p. 731-732. 44. Teraoka Y, Wei MD, and Kagawa S, Double perovskites containing hexavalent molybdenum and tungsten: synthesis, structural investigation and proposal of a fitness factor to discriminate the crystal symmetry. Journal of Materials Chemistry, (1998). 8(11): p. 2323-2325. 45. Shannon RD, Revised Effective Ionic Radii and Systematic Studies of Interatomic Distances in Halides and Chalcogenides. Acta Cryst., (1976). A32: p. 751-767. 46. Odgaard M and Skou E, SOFC cathode kinetics investigated by the use of cone shaped electrodes: The effect of polarization and mechanical load. Solid State Ionics, (1996). 86-8: p. 1217-1222. 47. Baker R, Guindet J, and Kleitz M, Classification criteria for solid oxide fuel cell electrode materials. Journal of the Electrochemical Society, (1997). 144(7): p. 2427-2432. 48. Kammer K and Mogensen M. Electro-catalytic processes Studied by the Use of point Electrodes. in The 26th Risø International Symposium on Materials Science: Solid State Electrochemistry. (2005). Roskilde, Denmark: Risø National Laboratory. 49. Kammer K, Studies of Fe-Co based perovskite cathodes with different A-site cations. Solid State Ionics, (2006). 177(11-12): p. 1047-1051. 50. Blennow P, Hansen KK, Wallenberg LR, and Mogensen M, Effects of Sr/Ti-ratio in SrTiO3-based SOFC anodes investigated by the use of cone-shaped electrodes. Electrochimica Acta, (2006). 52(4): p. 1651- 1661.PDF Image | Electrolysis of CO2 and H2O
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