Single/dual‐metal atoms supported on carbon matrix can be modulated by coordination
structure and neighboring active sites. Precisely designing the geometric and electronic …

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 …

Single‐atom catalysts (SACs) have attracted extensive interest to catalyze the oxygen
reduction reaction (ORR) in fuel cells and metal–air batteries. However, the development of …

Dual-atom catalysts, combining single-atom catalysts and metal alloys, are promising
electrocatalysts for CO2 reduction but are limited by sluggish CO2 reduction kinetics and ill …

As key parameters of electrocatalysts, the density and utilization of active sites determine the
electrocatalytic performance toward oxygen reduction reaction. Unfortunately, prevalent …

Electrochemical reduction of carbon dioxide (CO2) into chemicals and fuels has recently
attracted much interest, but normally suffers from a high overpotential and low selectivity. In …

Electrochemical CO2 reduction to value‐added chemicals/fuels provides a promising way to
mitigate CO2 emission and alleviate energy shortage. CO2‐to‐CO conversion involves only …

Photothermal CO2 hydrogenation to high‐value‐added chemicals and fuels is an appealing
approach to alleviate energy and environmental concerns. However, it still relies on the …

The configuration regulation of single‐atom photocatalysts (SAPCs) can significantly
influence the interfacial charge transfer and subsequent catalytic process. The construction …

To meet strategic applications, electrochemical reduction of CO2 into value‐added chemical
molecules would be improved by the rational design of advanced electrocatalysts with …