The ubiquity of solid–liquid interfaces in nature and the significant role of their atomic-scale
structure in determining interfacial properties have led to intensive research. Particularly in …

Reconstruction induced by external environment (such as applied voltage bias and test
electrolytes) changes catalyst component and catalytic behaviors. Investigations of complete …

The reaction mechanism of CO2 electroreduction on oxide-derived copper has not yet been
unraveled even though high C2+ Faradaic efficiencies are commonly observed on these …

Silver–copper (AgCu) bimetallic catalysts hold great potential for electrochemical carbon
dioxide reduction reaction (CO2RR), which is a promising way to realize the goal of carbon …

Realizing viable electrocatalytic processes for energy conversion/storage strongly relies on
an atomic-level understanding of dynamic configurations on catalyst-electrolyte interface. X …

Since the seminal works on the application of density functional theory and the
computational hydrogen electrode to electrochemical CO2 reduction (eCO2R) and …

The promoted activity and enhanced selectivity of electrocatalysts is commonly ascribed to
specific structural features such as surface facets, morphology, and atomic defects …

To date, copper is the only heterogeneous catalyst that has shown a propensity to produce
valuable hydrocarbons and alcohols, such as ethylene and ethanol, from electrochemical …

Highly-efficient oxygen evolution reaction (OER) and reduction of carbon dioxide (CO2RR)
represent the two biggest scientific challenges in artificial photosynthesis. Many efficient and …

The electroreduction of carbon dioxide (CO2) has been emerging as a high‐potential
approach for CO2 utilization using renewables. When copper (Cu) based catalysts are used …