High-entropy alloys (HEAs) are expected to become one of the most promising functional
materials in the field of electrocatalysis due to their site-occupancy disorder and lattice order …

Green hydrogen production by renewables‐powered water electrolysis holds the key to
energy sustainability and a carbon‐neutral future. The sluggish kinetics of water‐splitting …

Electrochemical glycerol oxidation reaction (GOR) is an attractive alternative anodic reaction
to oxygen evolution reaction for a variety of electrolytic synthesis, thanks to the possibility of …

The creation of high-performing, robust bifunctional electrocatalysts for both cathodic
hydrogen evolution reaction (HER) and anodic oxygen evolution reaction (OER) in water …

The oxygen evolution reaction is known to be a kinetic bottleneck for water splitting.
Triggering the lattice oxygen oxidation mechanism (LOM) can break the theoretical limit of …

The notion of “entropy engineering” has breathed new life into the research and
development of sophisticated functional materials in recent years. High-entropy materials …

Despite of urgent needs for highly stable and efficient electrochemical water‐splitting
devices, it remains extremely challenging to acquire highly stable oxygen evolution reaction …

High‐entropy (HE) electrocatalysts are becoming a research hotspot due to their interesting
“cocktail effect” and have great potential for tailored catalytic properties. However, it is still a …

Abstract Development of low‐cost and high‐efficiency electrocatalysts for overall water
splitting is of great significance in the sustainable hydrogen economy. Herein, Fe1. 2 (CoNi) …

High-entropy materials (HEMs) have attracted growing attention in catalysis fields owing to
their multielement synergy and tunable electronic configuration. As one of the commonest …