High-Performance Ultrathin Solid Oxide Fuel Cells for Low-Temperature Operation
Hong Huang(Stanford University), Masafumi Nakamura(Stanford University), Pei‐Chen Su(Stanford University), R. Fasching(Stanford University), Yuji Saito(Stanford University), Fritz B. Prinz(Stanford University)
Cited by 502
Abstract
Thin-film solid oxide fuel cell (SOFC) structures containing electrolyte membranes thick were fabricated with the help of sputtering, lithography, and etching. The submicrometer SOFCs were made of yttria-stabilized zirconia (YSZ) or YSZ/gadolinium-doped ceria composites electrolyte and porous Pt as cathode and anode. The peak power densities were 200 and at 350 and , respectively. The high power densities achieved are not only due to the reduction of electrolyte thickness but also to the high charge-transfer reaction rates at the interfaces between the nanoporous electrodes (cathode and/or anode) and the nanocrystalline thin electrolyte.
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