• Title of article

    Breakthrough fuel cell technology using ceria-based multi-functional nanocomposites

  • Author/Authors

    Zhu، نويسنده , , Bin and Fan، نويسنده , , Liangdong and Lund، نويسنده , , Peter، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    13
  • From page
    163
  • To page
    175
  • Abstract
    Recent scientific and technological advancements have provided a wealth of new information about solid oxide-molten salt composite materials and multifunctional ceria-based nano-composites for advanced fuel cells (NANOCOFC). NANOCOFC is a new approach for designing and developing of multi-functionalities for nanocomposite materials, especially at 300–600 °C. NANOCOFC and low temperature advanced ceramic fuel cells (LTACFCs) are growing as a new promising area of research which can be explored in various ways. The ceria-based composite materials have been developed as competitive electrolyte candidates for low temperature ceramic fuel cells (LTCFCs). In the latest developments, multifunctional materials have been developed by integrating semi- and ion conductors, which have resulted in an emerging insight knowledge concerned with their R&D on single-component electrolyte-free fuel cells (EFFCs) – a breakthrough fuel cell technology. A homogenous component/layer of the semi- and ion conducting materials can realize fuel cell all functions to avoid using three components: anode, electrolyte and cathode, i.e. “three in one” highlighted by Nature Nanotechnology (2011). This report gives a short review and advance knowledge on worldwide activities on the ceria-based composites, emphasizing on the latest semi-ion conductive nanocomposites and applications for new applied energy technologies. It gives an overview to help the audience to get a comprehensive understanding on this new field.
  • Keywords
    Single component , Nanocomposite , Electrolyte-free fuel cell , Ceria-based composite , NANOCOFC , Ceramic fuel cells
  • Journal title
    Applied Energy
  • Serial Year
    2013
  • Journal title
    Applied Energy
  • Record number

    1606214