Add to ORKGZnOx promoter and oxidic supports. Here, we use Cu nanoparticles on graphitic support to study the interplay between CO2 concentration and ZnOx promotion. CO2 enrichment enhanced the activity with an optimum at 3 vol% in the feed, but only if the ZnOx promoter was present, demonstrating the intricate interaction between the two. Interestingly, not only the activity but also the methanol selectivity was enhanced by CO2 enrichment, and even further by the addition of ZnOx. Understanding not only the role of the individual components, but also the interaction between them, is important to design catalysts for processes with more flexible feed compositions
The production of methanol from CO 2 hydrogenation is a promising potential route to a renewable li...
International audienceCu/ZnO-based catalysts are of industrial importance for the methanol synthesis...
The process of methanol synthesis based on the hydrogenation of CO2 was investigated over binary Cu/...
Despite the great commercial relevance of zinc-promoted copper catalysts for methanol synthesis, the...
Despite the great commercial relevance of zinc-promoted copper catalysts for methanol synthesis, the...
Catalysts have been used for decades to produce various materials on a large scale. A good catalyst ...
Nowadays, the chemical industry makes use of the Cu/ZnO/Al2O3 catalyst to convert CO2-enriched synth...
The development of active catalysts for carbon dioxide (CO2) hydrogenation to methanol is intimately...
The development of active catalysts for carbon dioxide (CO 2) hydrogenation to methanol is intimatel...
The production of methanol from CO2 hydrogenation is a promising potential route to a renewable liqu...
The production of methanol from CO2 hydrogenation is a promising potential route to a renewable liqu...
The production of methanol from CO2 hydrogenation is a promising potential route to a renewable liqu...
Cu/ZnO catalysts with different mean Cu particle sizes were prepared by wet impregnation of copper n...
The impact of carbon monoxide on CO2-to-methanol catalysts has been scarcely investigated, although ...
The production of methanol from CO 2 hydrogenation is a promising potential route to a renewable li...
The production of methanol from CO 2 hydrogenation is a promising potential route to a renewable li...
International audienceCu/ZnO-based catalysts are of industrial importance for the methanol synthesis...
The process of methanol synthesis based on the hydrogenation of CO2 was investigated over binary Cu/...
Despite the great commercial relevance of zinc-promoted copper catalysts for methanol synthesis, the...
Despite the great commercial relevance of zinc-promoted copper catalysts for methanol synthesis, the...
Catalysts have been used for decades to produce various materials on a large scale. A good catalyst ...
Nowadays, the chemical industry makes use of the Cu/ZnO/Al2O3 catalyst to convert CO2-enriched synth...
The development of active catalysts for carbon dioxide (CO2) hydrogenation to methanol is intimately...
The development of active catalysts for carbon dioxide (CO 2) hydrogenation to methanol is intimatel...
The production of methanol from CO2 hydrogenation is a promising potential route to a renewable liqu...
The production of methanol from CO2 hydrogenation is a promising potential route to a renewable liqu...
The production of methanol from CO2 hydrogenation is a promising potential route to a renewable liqu...
Cu/ZnO catalysts with different mean Cu particle sizes were prepared by wet impregnation of copper n...
The impact of carbon monoxide on CO2-to-methanol catalysts has been scarcely investigated, although ...
The production of methanol from CO 2 hydrogenation is a promising potential route to a renewable li...
The production of methanol from CO 2 hydrogenation is a promising potential route to a renewable li...
International audienceCu/ZnO-based catalysts are of industrial importance for the methanol synthesis...
The process of methanol synthesis based on the hydrogenation of CO2 was investigated over binary Cu/...