CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are commonly performed over Cu-based catalysts. Here, we use ambient pressure X-ray photoelectron spectroscopy together with density functional theory to obtain an atomistic understanding of the dissociative adsorption of CO2 on Cu(100). We find that the process is dominated by the presence of steps, which promote both a lowering of the dissociation barrier and an efficient separation between adsorbed O and CO, reducing the probability for recombination. The identification of steps as sites for efficient CO2 dissociation provides an understanding that can be used in the design of future CO2 reduction catalysts
Copper (Cu) remains the most important metal catalyst for the carbon dioxide reduction reaction (CO2...
A national priority is to convert CO2 into high-value chemical products such as liquid fuels. Becaus...
A national priority is to convert CO2 into high-value chemical products such as liquid fuels. Becaus...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are c...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are c...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are ...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are c...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are c...
Using x-ray photoelectron spectroscopy we observe the breaking of the strong interatomic bond in mol...
Using x-ray photoelectron spectroscopy we observe the breaking of the strong interatomic bond in mol...
Using x-ray photoelectron spectroscopy we observe the breaking of the strong interatomic bond in mol...
A national priority is to convert CO_2 into high-value chemical products such as liquid fuels. Becau...
Three Miller index surfaces of copper, Cu(111), Cu(211), and Cu(643) were evaluated for spontaneous ...
CO2 has a potentially bright future as a carbon resource because it is very cheap and abundant. The ...
Copper (Cu) remains the most important metal catalyst for the carbon dioxide reduction reaction (CO2...
Copper (Cu) remains the most important metal catalyst for the carbon dioxide reduction reaction (CO2...
A national priority is to convert CO2 into high-value chemical products such as liquid fuels. Becaus...
A national priority is to convert CO2 into high-value chemical products such as liquid fuels. Becaus...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are c...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are c...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are ...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are c...
CO2 reduction reactions, which provide one route to limit the emission of this greenhouse gas, are c...
Using x-ray photoelectron spectroscopy we observe the breaking of the strong interatomic bond in mol...
Using x-ray photoelectron spectroscopy we observe the breaking of the strong interatomic bond in mol...
Using x-ray photoelectron spectroscopy we observe the breaking of the strong interatomic bond in mol...
A national priority is to convert CO_2 into high-value chemical products such as liquid fuels. Becau...
Three Miller index surfaces of copper, Cu(111), Cu(211), and Cu(643) were evaluated for spontaneous ...
CO2 has a potentially bright future as a carbon resource because it is very cheap and abundant. The ...
Copper (Cu) remains the most important metal catalyst for the carbon dioxide reduction reaction (CO2...
Copper (Cu) remains the most important metal catalyst for the carbon dioxide reduction reaction (CO2...
A national priority is to convert CO2 into high-value chemical products such as liquid fuels. Becaus...
A national priority is to convert CO2 into high-value chemical products such as liquid fuels. Becaus...