Abstract
AbstractWe present a planar cell design for Solid Oxide Fuel Cells (SOFC) which combines the ceramic materials of a solid electrolyte (Y‐stabilized ZrO2), cathode (LaSrMeO3 with Me : Mn, Co and Cr), and anode (Ni‐Cermet) with a metallic interconnection material, the so‐called metallic bipolar plate. This metallic component—which functions as a mechanically stabilizing frame, as well as gas distributor and electrical connector—possesses the advantages of much higher electrical and thermal conductivity when compared with the common ceramic interconnection material (LaCrO3). This allows the construction of cell stacks with increased power density (> 100 kW m3).
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