Add to ORKGPractical environmental and energy applications of the electrochemical reduction of CO_2 to chemicals and fuels require far more efficient and selective electrocatalysts beyond the only working material Cu, but the wealth of experimental data on Cu can serve to validate any proposed mechanisms. To provide design guidelines, we use quantum mechanics to predict the detailed atomistic mechanisms responsible for C_1 and C_2 products on Cu. Thus, we report the pH dependent routes to the major products, methane and ethylene, and identify the key intermediates where branches to methanol, ketene, ethanol, acetylene and ethane are kinetically blocked. We discovered that surface water on Cu plays a key role in the selectivity for hydrocarbon products...
Despite significant theoretical efforts, the identification of the active sites for the electrochemi...
Publisher's version (útgefin grein).CO2 can be reduced electrochemically to form valuable chemicals ...
A critical step toward the rational design of new catalysts that achieve selective and efficient red...
Practical environmental and energy applications of the electrochemical reduction of CO_2 to chemical...
Energy and environmental concerns demand development of more efficient and selective electrodes for ...
Energy and environmental concerns demand development of more efficient and selective electrodes for ...
The great interest in the photochemical reduction from CO_2 to fuels and chemicals has focused atten...
Energy and environmental concerns demand development of more efficient and selective electrodes for ...
AbstractA detailed understanding of the mechanism of electrochemical reduction of CO2 to form hydroc...
Copper (Cu) is the only elemental metal that electrochem. catalyzes formation of significant amts. o...
Copper (Cu) is the only elemental metal that electrochem. catalyzes formation of significant amts. o...
Nanostructured Cu catalysts have increased the selectivities and geometric activities for high value...
We propose and validate with quantum mechanics methods a unique catalyst for electrochemical reducti...
Experimental results have shown that CO<sub>2</sub> electroreduction is sensitive to the surface mor...
Despite significant theoretical efforts, the identification of the active sites for the electrochemi...
Despite significant theoretical efforts, the identification of the active sites for the electrochemi...
Publisher's version (útgefin grein).CO2 can be reduced electrochemically to form valuable chemicals ...
A critical step toward the rational design of new catalysts that achieve selective and efficient red...
Practical environmental and energy applications of the electrochemical reduction of CO_2 to chemical...
Energy and environmental concerns demand development of more efficient and selective electrodes for ...
Energy and environmental concerns demand development of more efficient and selective electrodes for ...
The great interest in the photochemical reduction from CO_2 to fuels and chemicals has focused atten...
Energy and environmental concerns demand development of more efficient and selective electrodes for ...
AbstractA detailed understanding of the mechanism of electrochemical reduction of CO2 to form hydroc...
Copper (Cu) is the only elemental metal that electrochem. catalyzes formation of significant amts. o...
Copper (Cu) is the only elemental metal that electrochem. catalyzes formation of significant amts. o...
Nanostructured Cu catalysts have increased the selectivities and geometric activities for high value...
We propose and validate with quantum mechanics methods a unique catalyst for electrochemical reducti...
Experimental results have shown that CO<sub>2</sub> electroreduction is sensitive to the surface mor...
Despite significant theoretical efforts, the identification of the active sites for the electrochemi...
Despite significant theoretical efforts, the identification of the active sites for the electrochemi...
Publisher's version (útgefin grein).CO2 can be reduced electrochemically to form valuable chemicals ...
A critical step toward the rational design of new catalysts that achieve selective and efficient red...