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Ink-jet printing of electrolyte and anode functional layer for solid oxide fuel cells

✍ Scribed by D. Young; A.M. Sukeshini; R. Cummins; H. Xiao; M. Rottmayer; T. Reitz

Publisher
Elsevier Science
Year
2008
Tongue
English
Weight
1005 KB
Volume
184
Category
Article
ISSN
0378-7753

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✦ Synopsis

In this work, solid oxide fuel cells were fabricated by ink-jet printing. The cells were characterized in order to study the resulting microstructure and electrochemical performance. Scanning electron microscopy revealed a highly conformal 6-12 m thick dense yttria-stabilized zirconia electrolyte layer, and a porous anode-interlayer. Open circuit voltages ranged from 0.95 to 1.06 V, and a maximum power density of 0.175 W cm -2 was achieved at 750 • C. These results suggest that the ink-jet printing technique may be used to fabricate stable SOFC structures that are comparable to those fabricated by more conventional ceramics processing methods. This study also highlights the significance of overall cell microstructural impact on cell performance and stability.

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## Abstract A co‐extrusion technique was employed to fabricate a novel dual layer NiO/NiO‐YSZ hollow fiber (HF) precursor which was then co‐sintered at 1,400 °C and reduced at 700 °C to form, respectively, a meshed porous inner Ni current collector and outer Ni‐YSZ anode layers for SOFC application