Add to ORKGA supported gold catalyst was prepared by the deposition-precipitation method from an aque-ous solution of HAuCl4 3H2O on synthesized Fe3O4. Calcination at different temperatures caused transformations of Fe3O4 to -Fe2O3 and -Fe2O3. CO oxidations over Au/Fe3O4 and Au/-Fe2O3 were superior compared to Au/-Fe2O3. Key words CO oxidation supported gold catalysts iron oxides magnetite (Fe3O4) maghemite (-Fe2O3) haematite (-Fe2O3
Controlling the interaction between metal nanoparticles and the support is a means to tune catalytic...
In this work the development of gold catalysts, essentially based on γ-alumina with small superficia...
The preparation of gold catalysts supported on different metal oxides such as ZnO and Fe2O3, using t...
A supported gold catalyst was prepared by the deposition-precipitation method from an aqueous soluti...
Gold-iron oxide (Au/FeOx) is one of the highly active catalysts for CO oxidation, and is also a typi...
Supported gold catalysts were prepared by a deposition-precipitation method and characterized to und...
A series of Au/Fe-O catalysts have been prepared by a co-precipitation method from a Mixture of HAuC...
Recently supported gold catalysts have been reported to exhibit surprisingly high activities in low-...
Au/Fe2O3 catalysts has long been demonstrated to be highly active for CO oxidation at low temperatur...
Al2O3/CeO2 doped Fe2O3 support was synthesized by co-precipitation method, based on which gold was l...
We present the study on the catalytic performance of gold particles supported on spinel type MgFe2O4...
The CO oxidation is very important of practical application for the control of environmental polluti...
Catalysis by gold has emerged since the pioneering discovery that supported gold catalysts could be ...
Au/gamma-Fe2O3 and Au/alpha-Fe2O3 catalysts with identical size of Au nanoparticles, chemical state ...
Goethite- and hematite-supported highly dispersed gold catalysts for carbon monoxide oxidation were ...
Controlling the interaction between metal nanoparticles and the support is a means to tune catalytic...
In this work the development of gold catalysts, essentially based on γ-alumina with small superficia...
The preparation of gold catalysts supported on different metal oxides such as ZnO and Fe2O3, using t...
A supported gold catalyst was prepared by the deposition-precipitation method from an aqueous soluti...
Gold-iron oxide (Au/FeOx) is one of the highly active catalysts for CO oxidation, and is also a typi...
Supported gold catalysts were prepared by a deposition-precipitation method and characterized to und...
A series of Au/Fe-O catalysts have been prepared by a co-precipitation method from a Mixture of HAuC...
Recently supported gold catalysts have been reported to exhibit surprisingly high activities in low-...
Au/Fe2O3 catalysts has long been demonstrated to be highly active for CO oxidation at low temperatur...
Al2O3/CeO2 doped Fe2O3 support was synthesized by co-precipitation method, based on which gold was l...
We present the study on the catalytic performance of gold particles supported on spinel type MgFe2O4...
The CO oxidation is very important of practical application for the control of environmental polluti...
Catalysis by gold has emerged since the pioneering discovery that supported gold catalysts could be ...
Au/gamma-Fe2O3 and Au/alpha-Fe2O3 catalysts with identical size of Au nanoparticles, chemical state ...
Goethite- and hematite-supported highly dispersed gold catalysts for carbon monoxide oxidation were ...
Controlling the interaction between metal nanoparticles and the support is a means to tune catalytic...
In this work the development of gold catalysts, essentially based on γ-alumina with small superficia...
The preparation of gold catalysts supported on different metal oxides such as ZnO and Fe2O3, using t...