Electrocatalytic CO2 reduction has been developed as a promising and attractive strategy to
achieve carbon neutrality for sustainable chemical production. Among various reduction …

Single-atom catalysts (SACs) are advantageous because every active atom is exposed at
the surface, ensuring maximum utilization of catalytically active metals. To optimize the …

Designing active and stable electrocatalysts with economic efficiency for acidic oxygen
evolution reaction is essential for develo** proton exchange membrane water …

Recently, the missing link between homogeneous and heterogeneous catalysis has been
found and it was named single-atom catalysis (SAC). However, the SAC field still faces …

CO2 emissions can be recycled via low-temperature CO2 electrolysis to generate products
such as carbon monoxide, ethanol, ethylene, acetic acid, formic acid and propanol. In recent …

Nanocarbons with single‐metal atoms (M‐SAs) have displayed considerable potential in
various fields of application due to high free energy of M‐SAs and strong metal‐support …

The ubiquity of solid–liquid interfaces in nature and the significant role of their atomic-scale
structure in determining interfacial properties have led to intensive research. Particularly in …

Oxide-derived copper (OD-Cu) is the most efficient and likely practical electrocatalyst for
CO2 reduction toward multicarbon products. However, the inevitable but poorly understood …

As a subclass of porous framework materials, covalent organic frameworks (COFs) feature
permanent porosity, long-range order, and rigid backbones, and offer an important material …

Photocatalysts with metal single atoms (SAs) as active sites have attracted widespread
interest owing to their maximum atomic utilization efficiency, well-defined active centers and …