• Title of article

    Structural, electrical, and electrochemical properties of cobalt-doped NiFe2O4 as a potential cathode material for solid oxide fuel cells

  • Author/Authors

    Rao، نويسنده , , Yuanyuan and Wang، نويسنده , , Zhenbin and Chen، نويسنده , , Long and Wu، نويسنده , , Ruofei and Peng، نويسنده , , Ranran and Lu، نويسنده , , Yalin، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    8
  • From page
    14329
  • To page
    14336
  • Abstract
    In this work, Co-doped NiFe2O4 spinels (NFCO-x) are successfully fabricated and characterized as possible cathode materials for the intermediate-temperature solid oxide fuel cells (SOFC). Results of the binding energy calculations using the density functional theory suggest that the reverse spinel structure is stable when Co3+ occupies the octahedral interstitial sites. Total and ionic-only conductivities indicate that NFCO-x are a kind of mixed electronic-ionic conductors. Ionic transferring numbers are approximately 0.049 and 0.006 for NFCO-0.1 and NFCO-0.5, respectively, measured at 700 °C in air. Co dopant in the NFCO-x improves the electronic conductivity at the expense of the ionic conductivity. For NFCO-0.5, electronic and ionic conductivities are approximately 0.24 and 9.6 × 10−4 S cm−1, respectively, measured also at 700 °C in air. Unlike behaviour of the conductivities, the polarization resistance of symmetric cells with NFCO-x electrodes decreases when increasing the Co content (x) to a certain level, and then increases. The cell containing the NFCO-0.5 electrode exhibits the lowest polarization resistance (Rp), which is approximately 1.51 Ω cm2 at 650 °C. For single cells, the maximum power density is 320 mW cm−2 measured at 650 °C using a 38-μm-thick SDC electrolyte and an NFCO-0.5 cathode.
  • Keywords
    electrical conductivity , Single-phase electrode , cathode , Spinel material , Solid oxide fuel cell
  • Journal title
    International Journal of Hydrogen Energy
  • Serial Year
    2013
  • Journal title
    International Journal of Hydrogen Energy
  • Record number

    1865551