The chemical conversion of CO 2 into hydrocarbon fuels and chemicals using green
hydrogen not only utilizes abundant CO 2 as a carbon feedstock but also enables the …

Unraveling the proximity influence between different sites in tandem catalysis is particularly
challenging. Herein, we evaluate the distance effect on the communication between metal …

One-pot green urea electrosynthesis from CO 2 and nitrogenous pollutants via the co-
reductive C− N coupling route under ambient conditions is prospective to replace the …

Abstract Active Zn species in Cu‐based methanol synthesis catalysts have not been clearly
identified yet due to their complex nature and dynamic structural changes during reactions …

Bifunctional catalysts with tandem processes have achieved great success in a wide range
of important catalytic processes, however, this concept has hardly been applied in the …

Catalytic conversion of CO2 into chemicals and fuels is a viable method to reduce carbon
emissions and achieve carbon neutrality. Through thermal catalysis, electrocatalysis, and …

Converting CO2 into value‐added chemicals to solve the issues caused by carbon emission
is promising but challenging. Herein, by embedding metal ions (Co2+, Ni2+, Cu2+, and …

Abstract Constructing Co-Fe bimetallic catalyst is of high research value for CO 2 conversion
based on its outstanding traits, however, its activity-structure relationship is still confusing …

Conspectus The hydrogenative conversion of both CO and CO2 into high-value multicarbon
(C2+) compounds, such as olefins, aromatic hydrocarbons, ethanol, and liquid fuels, has …

Carbon dioxide (CO2) is one of the culprit causes of global climatic changes. Furthermore,
the efficient separation of CO2 from other gaseous mixtures using zeolitic imidazolate …