In recent years, dual‐atom catalysts (DACs) have attracted extensive attention, as an
extension of single‐atom catalysts (SACs). Compared with SACs, DACs have higher metal …

Studying structure–activity correlations of electrocatalysts is essential for improving the
conversion of electrical to chemical energy. Recently, increasing evidence obtained by …

Recognizing and controlling the structure–activity relationships of single‐atom catalysts
(SACs) is vital for manipulating their catalytic properties for various practical applications …

Electrolysis of costless and infinite seawater is a promising way toward grid‐scale hydrogen
production without causing freshwater stress. Practical potential of this technology, however …

Abstract 2D MXenes‐based nanoarchitectures are being actively explored for
electrocatalytic water splitting because they possess physical and physiochemical …

High‐entropy materials (HEMs) have great potential for energy storage and conversion due
to their diverse compositions, and unexpected physical and chemical features. However …

MXenes are seen as an exceptional candidate to reshape the future of energy with their
viable surface chemistry, ultrathin 2D structure, and excellent electronic conductivity. The …

Sulfur‐based batteries are regarded as potent candidates for next‐generation high‐energy
and low‐cost energy storage systems. However, sulfur‐based batteries still face substantial …

The practical application of the room‐temperature sodium–sulfur (RT Na–S) batteries is
hindered by the insulated sulfur, the severe shuttle effect of sodium polysulfides, and …

Fourier-transform infrared (FTIR) spectroscopy characterization is a powerful and easy-to-
use technique frequently employed for the characterization and fingerprinting of materials …