Add to ORKGTungsten carbide, which is known to be active for hydrogen oxidation and CO tolerant has a hexagonal structure. Titanium carbide is inactive and has a cubic structure. Four different samples of the cubic alloys Wx-1TixC were prepared and found to be active and CO tolerant. These alloys are of interest as possible phosphoric acid fuel cell catalysts. They also are of interest as opportunities to study the activity of W in a different crystalline environment and to correlate the activities of the surface sites with surface composition
The cathode of the phosphoric acid fuel cell uses a high surface area platinum catalyst supported on...
Platinum nanocatalyst on tungsten based support has been synthesized and characterized as catalyst f...
The electrochemical energy conversion devices, fuel cell, have received considerable attention over ...
A significant research efforts are directed towards the development of compact energy supply devices...
Poster presented at the 13th Annual Conference of the Materials Research Society of Serbia - YUCOMAT...
Fuel cell application of tungsten carbide is revisited starting with four different tungsten carbide...
A mesoporous tungsten carbide of WC-phase was synthesized by using ammonium meta tungstate as tungst...
In this contribution, we present results of electrochemical characterization of prepared tungsten ca...
The platinum electrocatalysts were characterized for their crystallite sizes and the degree of dispe...
Platinum nanocatalyst at nano-tungsten carbide was synthesized, characterized and tested for oxygen ...
Ce travail s'inscrit dans les thématiques matériaux carbonés et matériaux pour l'énergie. Il s'agit ...
Alloy electrocatalysts on carbon supports were developed for hydrogen oxidation in the presence of c...
In automotive applications, when proton exchange membrane fuel cells (PEMFCs) are subjected to frequ...
High-surface-area tungsten carbide (WC) was synthesized via a molten solvent route and investigated ...
Ce travail s'inscrit dans les thématiques matériaux carbonés et matériaux pour l'énergie. Il s'agit ...
The cathode of the phosphoric acid fuel cell uses a high surface area platinum catalyst supported on...
Platinum nanocatalyst on tungsten based support has been synthesized and characterized as catalyst f...
The electrochemical energy conversion devices, fuel cell, have received considerable attention over ...
A significant research efforts are directed towards the development of compact energy supply devices...
Poster presented at the 13th Annual Conference of the Materials Research Society of Serbia - YUCOMAT...
Fuel cell application of tungsten carbide is revisited starting with four different tungsten carbide...
A mesoporous tungsten carbide of WC-phase was synthesized by using ammonium meta tungstate as tungst...
In this contribution, we present results of electrochemical characterization of prepared tungsten ca...
The platinum electrocatalysts were characterized for their crystallite sizes and the degree of dispe...
Platinum nanocatalyst at nano-tungsten carbide was synthesized, characterized and tested for oxygen ...
Ce travail s'inscrit dans les thématiques matériaux carbonés et matériaux pour l'énergie. Il s'agit ...
Alloy electrocatalysts on carbon supports were developed for hydrogen oxidation in the presence of c...
In automotive applications, when proton exchange membrane fuel cells (PEMFCs) are subjected to frequ...
High-surface-area tungsten carbide (WC) was synthesized via a molten solvent route and investigated ...
Ce travail s'inscrit dans les thématiques matériaux carbonés et matériaux pour l'énergie. Il s'agit ...
The cathode of the phosphoric acid fuel cell uses a high surface area platinum catalyst supported on...
Platinum nanocatalyst on tungsten based support has been synthesized and characterized as catalyst f...
The electrochemical energy conversion devices, fuel cell, have received considerable attention over ...