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

Catalysts can accelerate the chemical reaction rate and effectively promote the molecules
transformation, which is of great significance in the research of chemical industry and …

Herein, we successfully construct bifunctional electrocatalysts by synthesizing atomically
dispersed Fe− Se atom pairs supported on N‐doped carbon (Fe− Se/NC). The obtained Fe …

Fe− N− C catalysts with single‐atom Fe− N4 configurations are highly needed owing to the
high activity for oxygen reduction reaction (ORR). However, the limited intrinsic activity and …

Nickel‐based catalysts have been regarded as one of the most promising electrocatalysts
for urea oxidation reaction (UOR), however, their activity is largely limited by the inevitable …

Precise design and tuning of the micro‐atomic structure of single atom catalysts (SACs) can
help efficiently adapt complex catalytic systems. Herein, we inventively found that when the …

The appropriate catalysts can accelerate the reaction rate and effectively boost the efficient
conversion of various molecules, which is of great importance in the study of chemistry …

The simultaneous presence of two active metal centres in diatomic catalysts (DACs) leads to
the occurrence of specific interactions between active sites. Such interactions, referred to as …

The light‐driven CO2 reduction to multi‐carbon products is especially meaningful, while the
low efficiency of multi‐electron transfer and sluggish C− C coupling greatly hinder its …

Ruthenium-based materials are considered great promising candidates to replace Pt-based
catalysts for hydrogen production in alkaline conditions. Herein, we adopt a facile method to …