Characterization of Fe- and Mn-doped GDC for low-temperature processing of solid oxide fuel cells

Materials Chemistry and Physics

Volumn 115, Issue 2-3, 2009, Pages 728-734

  Kondakindi, Rajender R ^a   Karan, K ^a  

^a QUEEN S UNIVERSITY   (Canada)

Author keywords

Cell performance; Co firing; Conductivity; Doped GDC

Indexed keywords

CELL PERFORMANCE; CO-FIRING; CO-SINTERING; COMPOSITE CATHODES; CONDUCTIVITY; COPPER ANODES; COPPER-BASED; DOPED CERIAS; DOPED GDC; ELECTRICAL CONDUCTIVITIES; FUNCTIONAL PROPERTIES; GDC ELECTROLYTES; LOW MELTING POINTS; LOW TEMPERATURES; LOW-TEMPERATURE PROCESSING; LOW-TEMPERATURE SINTERING; LOW-TEMPERATURE SOLID OXIDE FUEL CELLS; MECHANICAL STRENGTHS; MN-DOPED; SCANNING ELECTRON MICROGRAPHS; SINGLE CELLS; SINGLE STEPS; SINTERABILITY; SINTERING TEMPERATURES; SOLID OXIDES; TEST TEMPERATURES; THREE LAYERS; TRANSITION METAL-OXIDES;

CATHODES; CERIUM; CERIUM COMPOUNDS; COPPER; COPPER OXIDES; ELECTRIC CONDUCTIVITY; ELECTROCHEMISTRY; ELECTROLYSIS; ELECTROLYTES; GADOLINIUM; HYDROGEN; MANGANESE; MANGANESE COMPOUNDS; MELTING POINT; METAL MELTING; NICKEL OXIDE; SCANNING ELECTRON MICROSCOPY; SMELTING; SOLID OXIDE FUEL CELLS (SOFC);

SINTERING;

EID: 64749115166     PISSN: 02540584     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.matchemphys.2009.02.023     Document Type: Article

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