Oxygen transport in the La2Ni1−xCoxO4+δ system

From National Research Council Canada

DOI	Resolve DOI: https://doi.org/10.1016/j.ssi.2005.06.002
Author	Search for: Munnings, C.; Search for: Skinner, S.; Search for: Amow, Gisele¹; Search for: Whitfield, Pamela¹; Search for: Davidson, Isobel¹
Affiliation	National Research Council of Canada. NRC Institute for Chemical Process and Environmental Technology
Format	Text, Article
Subject	La2Ni1−xCoxO4+δ; Oxygen diffusion; SIMS; Solid oxide fuel cells
Abstract	Oxygen isotopic exchange measurements of polycrystalline La2Ni1−xCoxO4+δ have been carried out for the 30%, 50%, 80% and 100% Co doped materials and both the oxygen tracer diffusion coefficient, D, and surface exchange coefficient, k, determined. Each of the high Co content materials (x ≥ 0.5) was found to have higher diffusion and surface exchange coefficients than the previously reported parent compound La2NiO4+δ. Of greater interest are the relatively high diffusion coefficients calculated for the high cobalt content materials, particularly the La2Ni0.2Co0.8O4+δ and La2CoO4+δ materials over the temperature range 450–650 °C. As the surface exchange coefficients for these materials are also high these materials then meet the Dk product requirement of 10− 14 cm3 s− 2 for cathodes at the low temperature of 470 °C. Keywords: Oxygen diffusion; La2Ni1−xCoxO4+δ; Solid oxide fuel cells; SIMS PACS: 66.30 Hs; 82.47 Ed
Publication date	2005-07
In	Solid State Ionics 176, no. 23-24 (July 2005): 1895–1901.
NPARC number	12330252
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Record identifier	46803a5c-5afd-4907-878d-b6072e49aef0
Record created	2009-09-10
Record modified	2020-04-07

Date modified:: 2024-07-23