Topics
acetateChemical substance
optimizationCultivar (cultivated variety)
chemical industryPerson function
hydrogenationDisease
ethanolChemical substance
Supported Cu catalysts are widely used in the chemical industry. Here, we discuss the role of the Cu particle size in the hydrogenation of ethyl acetate, as a model reaction for Cu-based hydrogenation catalysis and a crucial step to produce ethanol via synthesis gas. A series of carbon-supported Cu catalysts was prepared with Cu particle sizes tuned between 3 and 14 nm. At temperatures of 180–210 °C and a pressure of 30 bar, the surface-normalized activity increased around 4-fold when increasing the Cu particle size from 3 to 10 nm, while it became constant for Cu particles above 10 nm, hence showing that the Cu-catalyzed hydrogenation reaction is weakly sensitive to the Cu surface structure. The apparent activation energy for the reaction ...
Cu/MgO catalysts with different Cu particle sizes were prepared by a precipitation-deposition method...
Metal nanoparticles with a precisely controlled particle size distribution are ideal model catalysts...
Two Cu/SiO2 methanol synthesis catalysts were synthesized, one via precipitation and one via impregn...
Supported Cu catalysts are widely used in the chemical industry. Here, we discuss the role of the Cu...
Fundamental studies in catalysis rely on well-defined catalyst materials and reactions. In this thes...
Copper is considered an excellent alternative to noble-metal selective hydrogenation catalysts. Here...
Cu/ZnO catalysts with different mean Cu particle sizes were prepared by wet impregnation of copper n...
A study of particle size effects during the catalytic CO2 electroreduction on size-controlled Cu nan...
Converting CO2 into value-added chemicals and fuels, such as methanol, is a promising approach to li...
Understanding the mechanism of CO2 hydrogenation to methanol is important in the context of renewabl...
A study of particle size effects during the catalytic CO2 electroreduction on size-controlled Cu nan...
The study of dynamic catalytic processes occurring at nanoscale provides necessary information to in...
A study of particle size effects during the catalytic CO2 electroreduction on size-controlled Cu nan...
Hydrogenation of carbon–oxygen (C–O) bonds plays a significant role in organic synthesis. Cu-based c...
Understanding the mechanism of CO2 hydrogenation to methanol is important in the context of renewabl...
Cu/MgO catalysts with different Cu particle sizes were prepared by a precipitation-deposition method...
Metal nanoparticles with a precisely controlled particle size distribution are ideal model catalysts...
Two Cu/SiO2 methanol synthesis catalysts were synthesized, one via precipitation and one via impregn...
Supported Cu catalysts are widely used in the chemical industry. Here, we discuss the role of the Cu...
Fundamental studies in catalysis rely on well-defined catalyst materials and reactions. In this thes...
Copper is considered an excellent alternative to noble-metal selective hydrogenation catalysts. Here...
Cu/ZnO catalysts with different mean Cu particle sizes were prepared by wet impregnation of copper n...
A study of particle size effects during the catalytic CO2 electroreduction on size-controlled Cu nan...
Converting CO2 into value-added chemicals and fuels, such as methanol, is a promising approach to li...
Understanding the mechanism of CO2 hydrogenation to methanol is important in the context of renewabl...
A study of particle size effects during the catalytic CO2 electroreduction on size-controlled Cu nan...
The study of dynamic catalytic processes occurring at nanoscale provides necessary information to in...
A study of particle size effects during the catalytic CO2 electroreduction on size-controlled Cu nan...
Hydrogenation of carbon–oxygen (C–O) bonds plays a significant role in organic synthesis. Cu-based c...
Understanding the mechanism of CO2 hydrogenation to methanol is important in the context of renewabl...
Cu/MgO catalysts with different Cu particle sizes were prepared by a precipitation-deposition method...
Metal nanoparticles with a precisely controlled particle size distribution are ideal model catalysts...
Two Cu/SiO2 methanol synthesis catalysts were synthesized, one via precipitation and one via impregn...