The electrocatalytic CO2 reduction reaction (ECO2RR) is considered one of the approaches
with the most potential to achieve lower carbon emissions in the future, but a huge gap still …

As an extension of single-atom catalysts (SACs), diatomic catalysts (DACs) perfectly inherit
the advantages of SACs but break some theoretical limitations of SACs due to the interaction …

Nanostructured metal-nitrides have attracted tremendous interest as a new generation of
catalysts for electroreduction of CO2, but these structures have limited activity and stability in …

Single-metal site catalysts have exhibited highly efficient electrocatalytic properties due to
their unique coordination environments and adjustable local structures for reactant …

The electrochemical carbon dioxide reduction reaction (CO2RR) provides an attractive
approach to convert renewable electricity into fuels and feedstocks in the form of chemical …

Carbon‐supported nitrogen‐coordinated single‐metal site catalysts (ie, M− N− C, M: Fe, Co,
or Ni) are active for the electrochemical CO2 reduction reaction (CO2RR) to CO. Further …

Electrochemical carbon dioxide reduction reaction (CO2RR) is an efficient strategy to relieve
global environmental and energy issues by converting excess CO2 from the atmosphere to …

Atomically dispersed and nitrogen-coordinated single Ni sites (ie, NiNx moieties) embedded
in partially graphitized carbon have emerged as effective catalysts for CO2 electroreduction …

Cu-based catalysts hold promise for electrifying CO2 to produce methane, an extensively
used fuel. However, the activity and selectivity remain insufficient due to the lack of catalyst …

Tuning the electronic structure of the active center is effective to improve the intrinsic activity
of single‐atom catalysts but the realization of precise regulation remains challenging …