Add to ORKGInternational audienceLong-term experiments have been carried out to investigate the impact of Nickel (Ni) coarsening on the performance of Solid Oxide Cell. Durability tests have been performed with H2 electrode supported cells at 850 °C and 750 °C in fuel cell and electrolysis modes. Microstructural changes in the composite electrode of Nickel and Yttria Stabilized Zirconia (YSZ) have been characterized by synchrotron X-ray nanotomography. Analysis of the reconstructions have revealed that Ni coarsening induces a significant decrease of both the density of Triple Phase Boundary lengths (TPBls) and the Ni/gas specific surface area. However, the contact surface between Ni and YSZ is not changed upon operation, meaning the Ni sintering is in...
The evolution of a Ni-YSZ microstructure under operation comprises the coarsening and the decrease o...
The degradation of the Ni-YSZ electrode was investigated after SOFC or SOEC operation for up to 4,70...
Solid oxide fuel cells are devices that have the potential to efficiently produce electricity while ...
International audienceTwo types of solid oxide cells with different Ni-YSZ cermet microstructures ha...
Solid oxide cells are electrochemical devices used for the conversion of chemical energy to electric...
The electrochemical performance of solid oxide cermet electrodes is expected to improve with increas...
The development of commercially viable Solid Oxide Fuel Cells has presented a series of complex mate...
International audienceDuring the operation of Solid Oxide Cell (SOC) fuel electrodes, the mobility o...
Microstructural changes in Ni–yttria stabilized zirconia (YSZ) near the YSZ electrolyte were examine...
Nickel coarsening is one the main degradation mechanisms that affect the lifetime of solid oxide fue...
The polarization resistance of solid oxide fuel cell (SOFC) anodes can be significantly reduced by i...
Ni-YSZ anodes for Solid Oxide Fuel Cells are vulnerable to microstructural damage during redox cycli...
In order to study the nickel coarsening in porous Ni/8YSZ anode cermets of solid oxide fuel cells (S...
The evolution of a Ni-YSZ microstructure under operation comprises the coarsening and the decrease o...
The degradation of the Ni-YSZ electrode was investigated after SOFC or SOEC operation for up to 4,70...
Solid oxide fuel cells are devices that have the potential to efficiently produce electricity while ...
International audienceTwo types of solid oxide cells with different Ni-YSZ cermet microstructures ha...
Solid oxide cells are electrochemical devices used for the conversion of chemical energy to electric...
The electrochemical performance of solid oxide cermet electrodes is expected to improve with increas...
The development of commercially viable Solid Oxide Fuel Cells has presented a series of complex mate...
International audienceDuring the operation of Solid Oxide Cell (SOC) fuel electrodes, the mobility o...
Microstructural changes in Ni–yttria stabilized zirconia (YSZ) near the YSZ electrolyte were examine...
Nickel coarsening is one the main degradation mechanisms that affect the lifetime of solid oxide fue...
The polarization resistance of solid oxide fuel cell (SOFC) anodes can be significantly reduced by i...
Ni-YSZ anodes for Solid Oxide Fuel Cells are vulnerable to microstructural damage during redox cycli...
In order to study the nickel coarsening in porous Ni/8YSZ anode cermets of solid oxide fuel cells (S...
The evolution of a Ni-YSZ microstructure under operation comprises the coarsening and the decrease o...
The degradation of the Ni-YSZ electrode was investigated after SOFC or SOEC operation for up to 4,70...
Solid oxide fuel cells are devices that have the potential to efficiently produce electricity while ...