Add to ORKGThe first isolable intermediate in the electrochemical reduction of carbon dioxide is carbon monoxide. This species, or its hydrated form, formic acid, is also the primary end product from all but a handful of metallic electrodes; with the latter, hydrogen gas is generated, but it emanates from the reduction of water and not from CO₂. Only one electrode material, zerovalent copper, can spawn, in greater-than-trace quantities, a variety of species that are more highly reduced than CO. Hence, if the aim is to pursue a reaction trail of the reduction of CO₂ to products other than CO, it would be both logical and expedient to track the electrocatalytic reaction of CO itself. Heterogeneous electrocatalysis is a surface phenomenon; it transpires ...
Understanding the role of the oxidation state of the Cu surface and surface-adsorbed intermediate sp...
As an important pathway for energy storage and a key reaction in the carbon cycle, the CO2 electroch...
Rational design of selective CO₂-to-fuels electrocatalysts requires direct knowledge of the electrod...
The first isolable intermediate in the electrochemical reduction of carbon dioxide is carbon monoxid...
It was recently demonstrated that the sequential or seriatim application of electrochemical scanning...
Operando scanning tunneling microscopy first revealed that application of a CO_2-reduction potential...
Thesis advisor: Matthias M. WaegeleThe electrocatalytic interface between a metal electrode and its ...
Thesis advisor: Matthias M. WaegeleThe properties of electrified interfaces, such as surface structu...
Electroreduction of carbon dioxide to hydrocarbons and oxygenates on copper involves reduction to a ...
The effective abatement of atmospheric carbon through its conversion via electrochemical reduction t...
In work related to the electrocatalysis of the CO_2 reduction reactions, we recently reported in Thi...
Harnessing renewable electricity to drive the electrochemical reduction of CO₂ is being intensely st...
A polycrystalline copper, surface-terminated by a well-defined (511)-oriented facet, was electrochem...
Despite significant theoretical efforts, the identification of the active sites for the electrochemi...
The reduction of CO2 on copper electrodes has attracted great attentions in the last decades, since ...
Understanding the role of the oxidation state of the Cu surface and surface-adsorbed intermediate sp...
As an important pathway for energy storage and a key reaction in the carbon cycle, the CO2 electroch...
Rational design of selective CO₂-to-fuels electrocatalysts requires direct knowledge of the electrod...
The first isolable intermediate in the electrochemical reduction of carbon dioxide is carbon monoxid...
It was recently demonstrated that the sequential or seriatim application of electrochemical scanning...
Operando scanning tunneling microscopy first revealed that application of a CO_2-reduction potential...
Thesis advisor: Matthias M. WaegeleThe electrocatalytic interface between a metal electrode and its ...
Thesis advisor: Matthias M. WaegeleThe properties of electrified interfaces, such as surface structu...
Electroreduction of carbon dioxide to hydrocarbons and oxygenates on copper involves reduction to a ...
The effective abatement of atmospheric carbon through its conversion via electrochemical reduction t...
In work related to the electrocatalysis of the CO_2 reduction reactions, we recently reported in Thi...
Harnessing renewable electricity to drive the electrochemical reduction of CO₂ is being intensely st...
A polycrystalline copper, surface-terminated by a well-defined (511)-oriented facet, was electrochem...
Despite significant theoretical efforts, the identification of the active sites for the electrochemi...
The reduction of CO2 on copper electrodes has attracted great attentions in the last decades, since ...
Understanding the role of the oxidation state of the Cu surface and surface-adsorbed intermediate sp...
As an important pathway for energy storage and a key reaction in the carbon cycle, the CO2 electroch...
Rational design of selective CO₂-to-fuels electrocatalysts requires direct knowledge of the electrod...