The electronic metal–support interaction (EMSI), which acts as a bridge between theoretical
electronic study and the design of heterogenous catalysts, has attracted much attention …

Abstract Single-atom catalysts (SACs), which contain a single metal atom supported on a
well-confined substrate, are among the most promising heterogeneous catalysts owing to …

Single-atom site catalysts (SACs) have made great achievements due to their nearly 100%
atomic utilization and uniform active sites. Regulating the surrounding environment of active …

Atomically dispersed metal‐based electrocatalysts have attracted increasing attention due to
their nearly 100% atomic utilization and excellent catalytic performance. However, current …

In response to the shortage of fossil fuels, efficient electrochemical energy conversion
devices are attracting increasing attention, while the limited electrochemical performance …

In recent years, single-atom site catalysts (SACs) have achieved great advancements in
heterogeneous and electrochemical catalysis due to the merits of maximal atom utilization …

Due to the excellent activity, selectivity, and stability, atomically dispersed metal catalysts
with well-defined structures have attracted intensive research attention. As the extension of …

Single-atom catalysts (SACs) have recently attracted interest in the fields of heterogeneous
catalysis and electrocatalysis due to the enhancement in intrinsic activity and selectivity …

Single-atom catalysts (SACs) offer high reactivity and selectivity toward catalytic reaction
while maximizing the utilization of active components. Unfortunately, single-atom sites are …

Metal-based electrocatalysts with different sizes (single atoms, nanoclusters, and
nanoparticles) show different catalytic behaviors for various electrocatalytic reactions …