Add to ORKGA and B site doped LaCrO3-based electronically conducting Perovskite ceramic materials have been extensively used as interconnects in solid oxide fule cells (SOFC) operating at 800° to 1000°C as the Perovskites offer good electrical conductivity, chemical compatibility with the adjacent components of the fuel cell, chemical stability in reducing and oxidizing atmospheres, and thermal expansion coefficients that match other cell components. However, requirements for good mechanical properties, electrical and thermal conductivities, and low cost make metallic interconnects more promising. Significant progress in reducing the operating temperature of SOFC from ~1000°C to ~750°C is expected to permit the use of metallic materials with substanti...
International audienceDue to the reduction of operating temperature from 1000°C to 800°C, chromia fo...
The vaporization of Cr(VI) species and the greater electrical resistance caused by a growing oxide s...
Due to their low environmental impact, their high efficiency and their fuel flexibility, Solid Oxide...
Significant progress made towards reducing the operating temperature of solid oxide fuel cells (SOFC...
Ferritic stainless steels are a leading candidate material for use as an SOFC interconnect, but have...
Solid oxide fuel cells (SOFC) are energy conversion systems with clean emissions (depending on the f...
In the last years a greater importance has been given to several chromia-forming stainless steels as...
Solid oxide cells (SOC) have the potential to revolutionize electricity production by being able to ...
Solid Oxide Fuel Cells (SOFCs) are systems that convert chemical energy into electrical energy. Thei...
Topography and phase composition of the scales formed on commercial ferritic stainless steels and ex...
The vaporization of Cr(VI) species and the greater electrical resistance caused by a growing oxide s...
International audienceDue to the reduction of operating temperature from 1000°C to 800°C, chromia fo...
International audienceDue to the reduction of operating temperature from 1000°C to 800°C, chromia fo...
International audienceDue to the reduction of operating temperature from 1000°C to 800°C, chromia fo...
Significant progress in reducing the operating temperature of solid oxide fuel cells (SOFC) from {ap...
International audienceDue to the reduction of operating temperature from 1000°C to 800°C, chromia fo...
The vaporization of Cr(VI) species and the greater electrical resistance caused by a growing oxide s...
Due to their low environmental impact, their high efficiency and their fuel flexibility, Solid Oxide...
Significant progress made towards reducing the operating temperature of solid oxide fuel cells (SOFC...
Ferritic stainless steels are a leading candidate material for use as an SOFC interconnect, but have...
Solid oxide fuel cells (SOFC) are energy conversion systems with clean emissions (depending on the f...
In the last years a greater importance has been given to several chromia-forming stainless steels as...
Solid oxide cells (SOC) have the potential to revolutionize electricity production by being able to ...
Solid Oxide Fuel Cells (SOFCs) are systems that convert chemical energy into electrical energy. Thei...
Topography and phase composition of the scales formed on commercial ferritic stainless steels and ex...
The vaporization of Cr(VI) species and the greater electrical resistance caused by a growing oxide s...
International audienceDue to the reduction of operating temperature from 1000°C to 800°C, chromia fo...
International audienceDue to the reduction of operating temperature from 1000°C to 800°C, chromia fo...
International audienceDue to the reduction of operating temperature from 1000°C to 800°C, chromia fo...
Significant progress in reducing the operating temperature of solid oxide fuel cells (SOFC) from {ap...
International audienceDue to the reduction of operating temperature from 1000°C to 800°C, chromia fo...
The vaporization of Cr(VI) species and the greater electrical resistance caused by a growing oxide s...
Due to their low environmental impact, their high efficiency and their fuel flexibility, Solid Oxide...