Add to ORKGWith the passage of time and the advancement of our industrial civilization, environmental concerns have become more and more recognized since the 1990s. Carbon dioxide reduction reactions are capable of converting carbon dioxide into valuable hydrocarbons and reducing the carbon emission from the combustion of fossil fuels. This is a promising direction for sustainable energy resources given that the scarcity of fossil fuels is becoming more threatening to the survival of mankind. In recent years, oxide-derived metal nanostructures have been synthesized and show unique catalytic features. Recently, Sloan et al. synthesized a novel oxide-derived copper nanocube structure, which showed a high selectivity toward ethylene over methane and low ...
Understanding the structure-activity relationship over silica-supported Au-based bimetallic nanocata...
Copper oxide is an active component of different catalysts, especially of those promoting reactions ...
Understanding the structure-activity relationship over silica-supported Au-based bimetallic nanocata...
With the passage of time and the advancement of our industrial civilization, environmental concerns ...
With the passage of time and the advancement of our industrial civilization, environmental concerns ...
Copper electrocatalysts derived from an oxide have shown extraordinary electrochemical properties fo...
The carbon dioxide reduction reaction is a promising candidate to tackle ecological challenges of ou...
The carbon dioxide reduction reaction is a promising candidate to tackle ecological challenges of ou...
Copper electrocatalysts derived from an oxide have shown extraordinary electrochemical properties fo...
The carbon dioxide reduction reaction is a promising candidate to tackle ecological challenges of ou...
The carbon dioxide reduction reaction is a promising candidate to tackle ecological challenges of ou...
Oxide-derived copper electrocatalysts have been found to possess excellent selectivity toward the pr...
Subsurface oxygen has been proposed to be crucial in oxide-derived copper (OD-Cu) electrocatalysts f...
It has recently been proposed that subsurface oxygen is crucial for the adsorption and subsequent el...
In this work we have tackled one of the most challenging problems in nanocatalysis namely understand...
Understanding the structure-activity relationship over silica-supported Au-based bimetallic nanocata...
Copper oxide is an active component of different catalysts, especially of those promoting reactions ...
Understanding the structure-activity relationship over silica-supported Au-based bimetallic nanocata...
With the passage of time and the advancement of our industrial civilization, environmental concerns ...
With the passage of time and the advancement of our industrial civilization, environmental concerns ...
Copper electrocatalysts derived from an oxide have shown extraordinary electrochemical properties fo...
The carbon dioxide reduction reaction is a promising candidate to tackle ecological challenges of ou...
The carbon dioxide reduction reaction is a promising candidate to tackle ecological challenges of ou...
Copper electrocatalysts derived from an oxide have shown extraordinary electrochemical properties fo...
The carbon dioxide reduction reaction is a promising candidate to tackle ecological challenges of ou...
The carbon dioxide reduction reaction is a promising candidate to tackle ecological challenges of ou...
Oxide-derived copper electrocatalysts have been found to possess excellent selectivity toward the pr...
Subsurface oxygen has been proposed to be crucial in oxide-derived copper (OD-Cu) electrocatalysts f...
It has recently been proposed that subsurface oxygen is crucial for the adsorption and subsequent el...
In this work we have tackled one of the most challenging problems in nanocatalysis namely understand...
Understanding the structure-activity relationship over silica-supported Au-based bimetallic nanocata...
Copper oxide is an active component of different catalysts, especially of those promoting reactions ...
Understanding the structure-activity relationship over silica-supported Au-based bimetallic nanocata...