Add to ORKGThe preparation of catalytic materials via mechanochemical routes is a very promising alternative to complex wet chemical syntheses due to its simplicity, versatility and ecological advantages. The mechanical mixing of Pd nanoparticles and CeO2 results in very active methane oxidation catalysts; here we explore the effect of milling parameters on the overall performance of Pd–ceria catalysts. The high methane combustion activity is the result of nanoscale interaction between palladium and cerium oxide and it is shown to be strongly dependent on the intensity of milling. This was investigated through methane combustion tests up to 1173 K and characterized by means of temperature programmed oxidation and reduction experiments. The morphologic...
Abstract: Pd/CeO2 catalysts prepared by a single step solution combustion synthesis (SCS) have been ...
he effect of support material on the catalytic performance for methane combustion has been studied f...
There is a critical need for improved methane-oxidation catalysts to both reduce emissions of methan...
The milling of Palladium acetate and CeO2 under dry conditions results in robust, environmentally fr...
By carefully mixing Pd metal nanoparticles with CeO2 polycrystalline powder under dry conditions, an...
Bimetallic Pt–Pd catalysts supported on ceria have been prepared by mechanochemical synthesis and te...
Shiva Fazlikeshteli ha guanyat el Premi a la millor presentació oral per aquest article a la 12th In...
We report on the synthesis and testing of active and stable nano-catalysts for methane oxidation. Th...
Palladium based catalysts are the most active for methane oxidation. The tuning of their composition...
An ecofriendly solventless mechano-chemical synthesis was developed for the preparation of Pd/CeO2 m...
In this work we investigate the effect of ceria and other rare earths (La, Pr, Tb) on Pd–PdO transfo...
In this paper, a comparative investigation of the catalytic performances of Pd@TiO2 and Pd@CeO2, cor...
In the present work, 1 wt% and 5 wt% Pd/GDC10 (Gd0.1Ce0.9O1.95) nanopowders were prepared by two dif...
Making use of synergy between urea and citric acid, a core–shell Pd@CeO2 catalyst with spherical mor...
In the present work, 1 wt% and 5 wt% Pd/GDC10 (Gd0.1Ce0.9O1.95) nanopowders were prepared by two dif...
Abstract: Pd/CeO2 catalysts prepared by a single step solution combustion synthesis (SCS) have been ...
he effect of support material on the catalytic performance for methane combustion has been studied f...
There is a critical need for improved methane-oxidation catalysts to both reduce emissions of methan...
The milling of Palladium acetate and CeO2 under dry conditions results in robust, environmentally fr...
By carefully mixing Pd metal nanoparticles with CeO2 polycrystalline powder under dry conditions, an...
Bimetallic Pt–Pd catalysts supported on ceria have been prepared by mechanochemical synthesis and te...
Shiva Fazlikeshteli ha guanyat el Premi a la millor presentació oral per aquest article a la 12th In...
We report on the synthesis and testing of active and stable nano-catalysts for methane oxidation. Th...
Palladium based catalysts are the most active for methane oxidation. The tuning of their composition...
An ecofriendly solventless mechano-chemical synthesis was developed for the preparation of Pd/CeO2 m...
In this work we investigate the effect of ceria and other rare earths (La, Pr, Tb) on Pd–PdO transfo...
In this paper, a comparative investigation of the catalytic performances of Pd@TiO2 and Pd@CeO2, cor...
In the present work, 1 wt% and 5 wt% Pd/GDC10 (Gd0.1Ce0.9O1.95) nanopowders were prepared by two dif...
Making use of synergy between urea and citric acid, a core–shell Pd@CeO2 catalyst with spherical mor...
In the present work, 1 wt% and 5 wt% Pd/GDC10 (Gd0.1Ce0.9O1.95) nanopowders were prepared by two dif...
Abstract: Pd/CeO2 catalysts prepared by a single step solution combustion synthesis (SCS) have been ...
he effect of support material on the catalytic performance for methane combustion has been studied f...
There is a critical need for improved methane-oxidation catalysts to both reduce emissions of methan...