Journal of the Electrochemical Society, Vol.140, No.12, 3494-3496, 1993
A Hydrogen-Sulfide Solid-Oxide Fuel-Cell Using Ceria-Based Electrolytes
The utilization of H2S as the fuel in a solid-oxide fuel cell was demonstrated, with the achievement of 42 mA/cm(2), the highest current density achieved with H2S to date. Two different ionic conductor electrolyte systems have been studied, oxide ion conductors and protonic conductors; the electrolyte membranes had the common component of ceria, CeO2,. The cells studied had the configurations H2S, Pt/Ce(0.81)M(0.19)O(2-alpha)/Pt, air (where M = Y or Sm) or H2S, Pt/SrCe0.95Yb0.05O3-alpha/Pt, air. Initial results at operating temperatures of 650 to 750 degrees C are reported with yttria-doped ceria, at 690 degrees C with samaria-doped ceria, and at 700 degrees C with ytterbia-doped strontium cerate.