• Title of article

    Ceria-carbonate Electrolyte Ceramic Membrane for Intermediate and Low Temperature Solid Oxide Fuel Cells: A Review

  • Author/Authors

    marthosa, s. prince of songkla university, suratthani campus - faculty of science and industrial technology, center of excellence in membrane science and technology (coemst), Surat Thani, Thailand , suklueng, m. prince of songkla university - psu energy systems research institute (perin), interdisciplinary graduate school of energy systems, Hat Yai, Thailand , niyomwas, s. prince of songkla university - faculty of engineering - department of mechanical engineering, Hat Yai, Thailand , anancharoenwong, e. prince of songkla university, suratthani campus - faculty of science and industrial technology, Surat Thani, Thailand , ninwijit, t. prince of songkla university, suratthani campus - faculty of science and industrial technology, Surat Thani, Thailand , budmai, n. prince of songkla university, suratthani campus - faculty of science and industrial technology, Surat Thani, Thailand , kaewnun, s. prince of songkla university, suratthani campus - faculty of science and industrial technology, Surat Thani, Thailand

  • From page
    1
  • To page
    10
  • Abstract
    A solid oxide fuel cell (SOFC) is a potential energy conversion technology with high efficiency and high fuel impurity tolerance. Its electrolyte layer is a crucial component and a novel ceria-carbonate electrolyte ceramic membrane has been developed for the intermediate and low temperature SOFCs (IT-LT SOFCs). The ceria-carbonate electrolyte can be produced by either a two-steps process which produces microscale particles or a one-step process which produces nanoscale materials. The ceria-carbonate composite ceramic membrane facilitates both of the oxide ion and proton conductions thus this material has a potential to raise the multi-ions transportation and improve performance of IT-LT SOFCs.
  • Keywords
    Ceramic membrane , SOFC , carbonate , conductivity
  • Journal title
    Journal of Applied Membrane Science and Technology
  • Journal title
    Journal of Applied Membrane Science and Technology
  • Record number

    2728411