Abstract
We present an approach for integrating a thin-film bilayer combination comprising a Ni(O)-YSZ nanocomposite layer and a YSZ thin-film electrolyte prepared using pulsed laser deposition into the architecture of porous Ni-YSZ-supported cells. Achieving a minimum bilayer thickness threshold of ~1.5 µm is found to be critical to achieve a high open circuit voltage value, as well as a significant decrease in the ohmic resistance to ~0.06 Ωcm2 at 750 °C and increase in maximum power density to 1.83 W/cm2. Short-term durability tests up to 45 h at a constant potential of 0.8 V showed stable operation with current densities reaching ~1.7 A/cm2. Cells utilizing thin-film bilayers can overcome issues associated degradation in conventionally sintered cells, in terms of maintaining excellent contact with the anode support and significantly suppressing Ni diffusion into the YSZ electrolyte.
Published Version
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