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Structural and Transport Properties of Doped LAMOX - Electrolytes for IT SOFC Conference Abstracts

Conference 20th International Conference on Solid State Ionics (SSI-20)
14-19 Jun 2015 , Keystone
Source 20th International Conference on Solid State Ionics SSI-20 Program Guide
Compilation, 2015. 245 c.
Output data Year: 2015, Article number : A9.03, Pages count : 1
Authors Pavlova Svetlana 1 , Bespalko Yuliya 1 , Sadykov Vladislav 1 , Pelipenko Vladimir 1 , Eremeev Nikita 1 , Krieger Tamara 1 , Chesalov Yurii 1 , Sadovskaya Ekaterina 1 , Ulikhin Artem 2 , Uvarov Nikolai 2 , Smirnova Alevtina 3
Affiliations
1 Boreskov Institute of Catalysis SB RAS, Novosibirsk, Russian Federation
2 Institute of Solid State Chemistry SB RAS, Novosivirsk, Russian Federation
3 South Dakota School of Mines and Technology, Rapid City, South Dakota, United States

Funding (1)

1 European Commission 310750 FP7-NMP-2012-SMALL-6 THEBARCODE

Abstract: Doped La2-xRxMo2-yWyO9 (LAMOX) (R= Bi, Gd, Pr, Sm, Nd; x=0-0.5, W=0.5-1) were synthesized via polymerized precursors method or mechanochemical activation. The structural properties of doped LAMOX were studied by thermal analysis, XRD, SEM, IR and Raman spectroscopy. Transport properties were characterized using impedance spectroscopy and isotope temperature–programmed exchange with C18O2 including SSITKA. It has been revealed that doping prevents phase transition from a cubic form of high conductivity to a monoclinic phase of low conductivity at about 580 °C. For all substituted cations in Laposition, well-crystalline cubic β-phase stable at low temperatures is formed from polymerized precursors at 700°C calcination except Bi. Single phase of cubic W-doped LAMOX is formed after calcination of MA products at 700-900°C depending on W concentration. High dispersion of doped LAMOX powders obtained via low-temperature synthesis allows the production of ceramics with the density of 92-95% after annealing at 950°C. If the total conductivity of La2Mo2O9 shows a sharp decrease at around 570 °C due to phase transition, for all doped LAMOX conductivity changes continuously with temperature rising due to stabilization of cubic phase at low temperature. In the range of 300-480oC, it can be satisfactorily fitted by a conventional Arrhenius-type law with the activation energy (Ea) 1.2-1.5 eV. The conductivity deviation from linearity observed at temperatures higher than 450 oC evidences the transition of conduction mechanism toward an empirical Vogel-Tammann-Fulcher (VTF) regime with Ea=0.045 eV. Comparison of the oxygen selfdiffusion coefficients (D0) obtained from the results of SSITKA and conductivity measurements (at 600 K ~3*10-13 cm2/s and 3*10-12 cm2/s, correspondingly) shows, in the first approximation, a reasonable agreement. The lower D0 of SSITKA could be due to incorporation of carbonate groups at low temperatures into the surface layers of LAMOX thus decreasing oxygen mobility.
Cite: Pavlova S. , Bespalko Y. , Sadykov V. , Pelipenko V. , Eremeev N. , Krieger T. , Chesalov Y. , Sadovskaya E. , Ulikhin A. , Uvarov N. , Smirnova A.
Structural and Transport Properties of Doped LAMOX - Electrolytes for IT SOFC
In compilation 20th International Conference on Solid State Ionics SSI-20 Program Guide. 2015. – C.96.
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