Abstract High-entropy alloys (HEAs), comprising five or more metallic elements, are currently
attracting in catalysis and energy storage fields owing to their wide range of composition …

Dealloying, which is traditionally originated in the research of alloy corrosion, has recently
been developed as a robust and generic method for fabricating functional 3D nanoporous …

Develo** highly efficient catalysts for oxygen evolution reactions (OER) is a key step for
rechargeable metal–oxygen batteries and water splitting. Usually, binary NiFe or ternary …

Ir‐based binary and ternary alloys are effective catalysts for the electrochemical oxygen
evolution reaction (OER) in acidic solutions. Nevertheless, decreasing the Ir content to less …

Controllably incorporating multiple immiscible metal elements into one single nanostructure
has immeasurable technological and scientific potential, but it remains a challenge for the …

Designing highly efficient and durable electrocatalysts for methanol oxidation reaction
(MOR) plays a decisive role in the commercialization of direct methanol fuel cells (DMFCs) …

Pt-based alloys have been widely used as high-performance electrocatalysts for the oxygen
reduction reaction (ORR). These catalysts contained high Pt contents, typically 60–70 at …

The multicomponent combinations of metals in nanoscale high‐entropy materials (HEMs)
have unique structure and physical and chemical properties, which provide them tailorable …

Owing to the relatively sluggish charge transport and reaction kinetics in nickel-based
oxides, the electrocatalytic efficiency for methanol oxidation reaction (MOR) is still far below …

Owing to the rising interest in the utilization of renewable energy sources, research studies
on optimizing energy storage have gained momentum. Metal oxide nanosheets are one of …