Add to ORKGIt was recently demonstrated that the sequential or seriatim application of electrochemical scanning tunneling microscopy (ECSTM) and differential electrochemical mass spectrometry (DEMS) enables the correlation, under actual reaction conditions, of a specific structure on a Cu electrode surface with the generation of a particular CO-reduction product. As an extension of the operando hyphenated-technique approach, we paired ECSTM with electrochemical polarization-modulation IR reflection-absorption spectroscopy (ECPMIRS) to identify a delineating potential that affected the coverage, the molecular orientation, and the adlattice structure of CO adsorbed on Cu(100) in 0.1 M KOH under CO_2-reduction conditions. The results may have significant...
Thesis advisor: Matthias M. WaegeleThe electrocatalytic interface between a metal electrode and its ...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Surface-adsorbed CO is generally considered a reactive on-pathway intermediate in the aqueous electr...
It was recently demonstrated that the sequential or seriatim application of electrochemical scanning...
The first isolable intermediate in the electrochemical reduction of carbon dioxide is carbon monoxid...
Copper is the only unalloyed metal that can deliver, in a “one-pot” heterogeneous electrochemical re...
Operando scanning tunneling microscopy first revealed that application of a CO_2-reduction potential...
A study based on operando electrochemical scanning tunneling microscopy (EC-STM) has shown that a po...
The effective abatement of atmospheric carbon through its conversion via electrochemical reduction t...
The electrochemical reduction of CO_2 on copper electrodes is known to generate a wide variety of pr...
This work describes results from an attempt to employ differential electrochem. mass spectrometry (D...
Cu catalyzes the electrochemical reduction of CO_2 or CO to an assortment of products, a behavior th...
Understanding the role of the oxidation state of the Cu surface and surface-adsorbed intermediate sp...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Electrochemical AFM is a powerful tool for the real‐space characterization of catalysts under realis...
Thesis advisor: Matthias M. WaegeleThe electrocatalytic interface between a metal electrode and its ...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Surface-adsorbed CO is generally considered a reactive on-pathway intermediate in the aqueous electr...
It was recently demonstrated that the sequential or seriatim application of electrochemical scanning...
The first isolable intermediate in the electrochemical reduction of carbon dioxide is carbon monoxid...
Copper is the only unalloyed metal that can deliver, in a “one-pot” heterogeneous electrochemical re...
Operando scanning tunneling microscopy first revealed that application of a CO_2-reduction potential...
A study based on operando electrochemical scanning tunneling microscopy (EC-STM) has shown that a po...
The effective abatement of atmospheric carbon through its conversion via electrochemical reduction t...
The electrochemical reduction of CO_2 on copper electrodes is known to generate a wide variety of pr...
This work describes results from an attempt to employ differential electrochem. mass spectrometry (D...
Cu catalyzes the electrochemical reduction of CO_2 or CO to an assortment of products, a behavior th...
Understanding the role of the oxidation state of the Cu surface and surface-adsorbed intermediate sp...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Electrochemical AFM is a powerful tool for the real‐space characterization of catalysts under realis...
Thesis advisor: Matthias M. WaegeleThe electrocatalytic interface between a metal electrode and its ...
Carbon monoxide participates in many copper-catalyzed reactions, which makes CO-induced structural c...
Surface-adsorbed CO is generally considered a reactive on-pathway intermediate in the aqueous electr...