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 …

The continuously increasing CO2 released from human activities poses a great threat to
human survival by fluctuating global climate and disturbing carbon balance among the four …

Dramatically increased CO2 concentration from several point sources is perceived to cause
severe greenhouse effect towards the serious ongoing global warming with associated …

Single-atom catalysts with a well-defined metal center open unique opportunities for
exploring the catalytically active site and reaction mechanism of chemical reactions …

The electrochemical reduction of CO2 to produce carbon-based fuels and chemicals
possesses huge potentials to alleviate current environmental problems. However, it is …

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 …

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

The urgent need to address the high-cost issue of proton-exchange membrane fuel cell
(PEMFC) technologies, particularly for transportation applications, drives the development of …

Manipulating the in‐plane defects of metal–nitrogen–carbon catalysts to regulate the
electroreduction reaction of CO2 (CO2RR) remains a challenging task. Here, it is …

We developed a tandem electrocatalyst for CO2‐to‐CO conversion comprising the single Cu
site co‐coordinated with N and S anchored carbon matrix (Cu‐S1N3) and atomically …