The water gas shift activities of Cu on ceria and Gd doped ceria have been studied for the further enhancement of hydrogen purity [1] after the steam reforming of ethanol. The catalytic properties of commercial catalysts were also studied to compare with the as-prepared catalysts. Copper-containing cerium oxide materials are shown in this work to be suitable for the high temperature. Copper-ceria is a stable high-temperature shift catalyst, unlike iron-chrome catalysts that deactivate severely in CO2-rich gases. We found that 5%Cu/10%GDC(D) has much higher activity than other copper ceria based catalysts. The finely dispersed CuO species is favorable to the higher activity, which explained the activity enhancement of this catalyst. The kine...
Cerium-manganese mixed oxides with different composition were prepared by co-precipitation, characte...
Proton-exchange membrane fuel cells are of great interest for vehicular applications. A highly pure,...
The reverse water–gas shift chemical (RWGS) reaction is a promising technique of converting CO2 to C...
The water gas shift activities of Cu on ceria and Gd doped ceria have been studied for the further e...
This study reports the activity of ionic substituted bimetallic Cu-Ni-modified ceria and Cu-Fe-modif...
Polymer electrolyte fuel cell (PEFC) systems are a leading candidate for replacing the internal comb...
A series of CeO2-based Cu catalysts was synthesized by the co-precipitation method. BET, N2O decompo...
Copper-based catalysts deposited on foams were developed to perform the water gas shift reaction at ...
In this paper we report on the activity of Cu- and Ni-containing cerium oxide catalysts for low-temp...
We have synthesized and tested a highly active Cu doped mesoporous CeO2 catalyst system for the low ...
Optimization of the water-gas shift (WGS) reaction system for hydrogen production for fuel cells is ...
Several Cu and Ni samples, supported over Pr-promoted ceria, were characterized and tested as water ...
A series of W–Cu–Ce mixed oxide catalysts prepared by microemulsion was evaluated in the water-gas s...
New information about the active sites for the water gas shift (WGS) reaction over Cu-CeO2 systems w...
A series of CuO/Ce0.6Zr0.4O2 catalysts doped with rare earth (Y, La) oxides and transition metal (Fe...
Cerium-manganese mixed oxides with different composition were prepared by co-precipitation, characte...
Proton-exchange membrane fuel cells are of great interest for vehicular applications. A highly pure,...
The reverse water–gas shift chemical (RWGS) reaction is a promising technique of converting CO2 to C...
The water gas shift activities of Cu on ceria and Gd doped ceria have been studied for the further e...
This study reports the activity of ionic substituted bimetallic Cu-Ni-modified ceria and Cu-Fe-modif...
Polymer electrolyte fuel cell (PEFC) systems are a leading candidate for replacing the internal comb...
A series of CeO2-based Cu catalysts was synthesized by the co-precipitation method. BET, N2O decompo...
Copper-based catalysts deposited on foams were developed to perform the water gas shift reaction at ...
In this paper we report on the activity of Cu- and Ni-containing cerium oxide catalysts for low-temp...
We have synthesized and tested a highly active Cu doped mesoporous CeO2 catalyst system for the low ...
Optimization of the water-gas shift (WGS) reaction system for hydrogen production for fuel cells is ...
Several Cu and Ni samples, supported over Pr-promoted ceria, were characterized and tested as water ...
A series of W–Cu–Ce mixed oxide catalysts prepared by microemulsion was evaluated in the water-gas s...
New information about the active sites for the water gas shift (WGS) reaction over Cu-CeO2 systems w...
A series of CuO/Ce0.6Zr0.4O2 catalysts doped with rare earth (Y, La) oxides and transition metal (Fe...
Cerium-manganese mixed oxides with different composition were prepared by co-precipitation, characte...
Proton-exchange membrane fuel cells are of great interest for vehicular applications. A highly pure,...
The reverse water–gas shift chemical (RWGS) reaction is a promising technique of converting CO2 to C...