Abstract
Doped cerium oxide is a promising electrolyte for use in a medium-temperature solid oxide fuel cell (SOFC), due to its high ionic conductivity at low temperatures. A colloidal processing route has been undertaken to prepare slurries from very fine doped-cerium oxide. The dried slurry is extruded into rods and tubes and the room temperature modulus of rupture is then measured. It is shown that the material could attain a modulus in excess of 220 MPa for (CeO 2 ) 0.8 (GdO 1.5 ) 0.2 , which is considerably greater than values obtained using traditional routes. A preliminary investigation is made of the electrochemical properties of single cells fabricated from the extruded doped-ceria tubes. At 600°C, a maximum power output of approximately 38 mW cm −2 is realised.
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