Add to ORKGThe purpose of this work is to study the effect of calcination parameters (temperature and duration) on the structural properties and activity of carbon nanofiber-supported Cu/ZrO2 (Cu-ZrO2/CNF) catalyst. The catalyst was prepared by deposition precipitation method with fixed metal loading of 20wt% Cu and 5wt% Zr on CNF and calcined at temperature between 250-550˚C and duration between 3-4 hours. The catalyst structural properties were characterize using Thermal Gravimetric Analysis (TGA), BET analysis, X-ray diffraction (XRD) and Temperature Programmed Reduction (TPR). The performance of the catalysts were studied in a stirred reactor at feed ratio H2/CO2 = 3:1, Temperature = 443 K and Pressure =3.0 MPa for 3 hours. XRD studies revealed th...
Cu/ZrO2 catalysts obtained by impregnation of ZrO2 and complexation with citric acid were studied fo...
CO2 conversion into valuable chemicals is an attractive option to deal with the increasing CO2 conce...
Methanol synthesis from CO2 + H2 was studied at mild reaction conditions (140–250 °C and 7 bar) over...
A series of novel bimetallic copper/zirconia carbon nanofibers supported catalysts with different Cu...
This article describes the synthesis of methanol by the direct hydrogenation of CO2 over Cu/ZrO2 cat...
A series of novel carbon nanofibers supported copper-Zirconia [Cu/ZrO,/CNFs-0 (CZC)] catalysts were...
Carbon dioxide emissions are one of the major causes of global climate change. In this regard, carbo...
Hydrogen can be used in fuel cells to provide energy. For mobile applications methanol may be employ...
Catalytic hydrogenation of carbon dioxide (CO2) to methanol is an attractive way to recycle and util...
International audienceThe thermocatalytic hydrogenation of carbon dioxide (CO2) to methanol is consi...
Nowadays, issues on global warming of the world atmosphere have continously become more and more imp...
In this study, a series of Cu-ZrO2 catalysts with highly dispersed Cu nanoclusters were prepared via...
Catalytic hydrogenation of carbon dioxide (CO2) to methanol is an attractive way to recycle and util...
The ternary Cu/ZnO/Al2O3 (CZA) catalysts having different Cu loading were prepared by the co-precipi...
Hydrogen can be used in fuel cells to provide energy. For mobile applications methanol may be employ...
Cu/ZrO2 catalysts obtained by impregnation of ZrO2 and complexation with citric acid were studied fo...
CO2 conversion into valuable chemicals is an attractive option to deal with the increasing CO2 conce...
Methanol synthesis from CO2 + H2 was studied at mild reaction conditions (140–250 °C and 7 bar) over...
A series of novel bimetallic copper/zirconia carbon nanofibers supported catalysts with different Cu...
This article describes the synthesis of methanol by the direct hydrogenation of CO2 over Cu/ZrO2 cat...
A series of novel carbon nanofibers supported copper-Zirconia [Cu/ZrO,/CNFs-0 (CZC)] catalysts were...
Carbon dioxide emissions are one of the major causes of global climate change. In this regard, carbo...
Hydrogen can be used in fuel cells to provide energy. For mobile applications methanol may be employ...
Catalytic hydrogenation of carbon dioxide (CO2) to methanol is an attractive way to recycle and util...
International audienceThe thermocatalytic hydrogenation of carbon dioxide (CO2) to methanol is consi...
Nowadays, issues on global warming of the world atmosphere have continously become more and more imp...
In this study, a series of Cu-ZrO2 catalysts with highly dispersed Cu nanoclusters were prepared via...
Catalytic hydrogenation of carbon dioxide (CO2) to methanol is an attractive way to recycle and util...
The ternary Cu/ZnO/Al2O3 (CZA) catalysts having different Cu loading were prepared by the co-precipi...
Hydrogen can be used in fuel cells to provide energy. For mobile applications methanol may be employ...
Cu/ZrO2 catalysts obtained by impregnation of ZrO2 and complexation with citric acid were studied fo...
CO2 conversion into valuable chemicals is an attractive option to deal with the increasing CO2 conce...
Methanol synthesis from CO2 + H2 was studied at mild reaction conditions (140–250 °C and 7 bar) over...