Add to ORKGBoth high ionic conductivity and mechanical strength are important when considering the potential application of ceramics in solid oxide fuel cells (SOFC). Yttria stabilised zirconia compounds can be used as both the electrolyte and anode support structure in self supporting SOFC and as a result, there is great interest in the development of these materials. The high ionic conductivity of an 8 mol% Y2O3 ZrO2 formulation, must be combined with suitable mechanical hardness and toughness, in order to qualify for SOFC application. The availability of suitable materials has been limited with the majority of suppliers having only small scale manufacturing capability. This study has investigated the physical and mechanical properties of a commer...
Solid Oxide Fuel Cells are devices that use a series of electrochemical reactions to convert chemica...
AbstractWith a view to produce intermediate temperature SOFCs, yttria and scandia doped zirconia wit...
Zirconia has been prepared from Zircon concentrate by caustic fusion methods. Zircon is a by product...
Both high ionic conductivity and mechanical strength are important when considering the potential ap...
The most widely used electrolyte in solid oxide fuel cell (SOFC) devices is 8 mol% yttria-stablished...
The phase relations, electrical properties and structural characteristics of doped cubic stabilised ...
Tests have shown that modification of chemical compositions can increase the strengths and fracture ...
Solid oxide fuel cells are currently constructed using a yttria stabilised zirconia electrolyte memb...
The most important component of the solid oxide fuel cell (SOFC) is the dense electrolyte. Besides g...
In order to increase the efficiency and economic viability of solid oxide fuel cells (SOFCs), new ma...
WOS: 000355711700069In this study, 3 mol% yttria stabilized zirconia (3YSZ) is investigated as a SOF...
Zirconia is one of the extensively studied solid oxide ceramics with respect to its use in various i...
Zirconia is one of the extensively studied solid oxide ceramics with respect to its use in various i...
Solid oxide fuel cells (SOFC) are being developed for various applications in the automobile, power-...
Various electrolyte materials for solid oxide fuel cells were fabricated by hot pressing 10 mol% ytt...
Solid Oxide Fuel Cells are devices that use a series of electrochemical reactions to convert chemica...
AbstractWith a view to produce intermediate temperature SOFCs, yttria and scandia doped zirconia wit...
Zirconia has been prepared from Zircon concentrate by caustic fusion methods. Zircon is a by product...
Both high ionic conductivity and mechanical strength are important when considering the potential ap...
The most widely used electrolyte in solid oxide fuel cell (SOFC) devices is 8 mol% yttria-stablished...
The phase relations, electrical properties and structural characteristics of doped cubic stabilised ...
Tests have shown that modification of chemical compositions can increase the strengths and fracture ...
Solid oxide fuel cells are currently constructed using a yttria stabilised zirconia electrolyte memb...
The most important component of the solid oxide fuel cell (SOFC) is the dense electrolyte. Besides g...
In order to increase the efficiency and economic viability of solid oxide fuel cells (SOFCs), new ma...
WOS: 000355711700069In this study, 3 mol% yttria stabilized zirconia (3YSZ) is investigated as a SOF...
Zirconia is one of the extensively studied solid oxide ceramics with respect to its use in various i...
Zirconia is one of the extensively studied solid oxide ceramics with respect to its use in various i...
Solid oxide fuel cells (SOFC) are being developed for various applications in the automobile, power-...
Various electrolyte materials for solid oxide fuel cells were fabricated by hot pressing 10 mol% ytt...
Solid Oxide Fuel Cells are devices that use a series of electrochemical reactions to convert chemica...
AbstractWith a view to produce intermediate temperature SOFCs, yttria and scandia doped zirconia wit...
Zirconia has been prepared from Zircon concentrate by caustic fusion methods. Zircon is a by product...