Comparative analysis of ceramic-carbonate nanocomposite fuel cells using composite GDC/NLC electrolyte with different perovskite structured cathode materials

A comparative analysis of perovskite structured cathode materials, La_0.65Sr_0.35MnO₃ (LSM), La_0.8Sr_0.2CoO₃ (LSC), La_0.6Sr_0.4FeO₃ (LSF) and La_0.6Sr_0.4Co_0.2Fe_0.8O₃ (LSCF), was performed for a ceramic-carbonate nanocomposite fuel cell using composite electrolyte consisting of Gd_0.1Ce_0.9O_1.95 (GDC) and a eutectic mixture of Na₂CO₃ and Li₂CO₃. The compatibility of these nanocomposite electrode powder materials was investigated under air, CO₂ and air/CO₂ atmospheres at 550 °C. Microscopy measurements together with energy dispersive X-ray spectroscopy (EDS) elementary analysis revealed few spots with higher counts of manganese relative to lanthanum and strontium under pure CO₂ atmosphere. Furthermore, electrochemical impedance (EIS) analysis showed that LSC had the lowest resistance to oxygen reduction reaction (ORR) (14.12 Ω·cm²) followed by LSF (15.23 Ω·cm²), LSCF (19.38 Ω·cm²) and LSM (>300 Ω·cm²). In addition, low frequency EIS measurements (down to 50 µHz) revealed two additional semi-circles at frequencies around 1 Hz. These semicircles can yield additional information about electrochemical reactions in the device. Finally, a fuel cell was fabricated using GDC/NLC nanocomposite electrolyte and its composite with NiO and LSCF as anode and cathode, respectively. The cell produced an excellent power density of 1.06 W/cm² at 550 °C under fuel cell conditions.