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Development of cathodes for methanol and ethanol fuelled lowtemperature (300.600 .C)solid oxide fuel cells

Tipo de material: TextoTextoSeries ; International Journal of Hydrogen Energy, 32(7), p.796-801, 2007Trabajos contenidos:
  • Mat, M.D
  • Liu, X
  • Zhu, Z
  • Zhu, B
Tema(s): Recursos en línea: Resumen: We have made extensive efforts to develop various compatible cathode materials for the ceria-carbonate composite (CCC)electrolytes to be used in direct alcohol fuelled solid oxide fuel cells (DLFC). The following cathode materials were mainly investigated: (i)BSCF (BaSrCoFeO)perovskite oxide; (ii)LFN (LaFeO-based oxides, e.g. LaFe0.8Ni0.2O3)perovskite oxides; (iii)bi- or tri-phase metal oxides with or without lithiation. A number of copper- and nickel-based anode composites were also developed for methanol and ethanol with maximum catalytic activity. The tri-metal oxide (CuNiOx.ZnO)cathode produced the maximum power density output of 500mW/cm.2 at 580 .C for DLFC with methanol operation.
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Documentos solicitados Documentos solicitados CICY Documento préstamo interbibliotecario Ref1 B-9313 (Browse shelf(Opens below)) Available

We have made extensive efforts to develop various compatible cathode materials for the ceria-carbonate composite (CCC)electrolytes to be used in direct alcohol fuelled solid oxide fuel cells (DLFC). The following cathode materials were mainly investigated: (i)BSCF (BaSrCoFeO)perovskite oxide; (ii)LFN (LaFeO-based oxides, e.g. LaFe0.8Ni0.2O3)perovskite oxides; (iii)bi- or tri-phase metal oxides with or without lithiation. A number of copper- and nickel-based anode composites were also developed for methanol and ethanol with maximum catalytic activity. The tri-metal oxide (CuNiOx.ZnO)cathode produced the maximum power density output of 500mW/cm.2 at 580 .C for DLFC with methanol operation.

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