Electrocatalysis underpins the renewable electrochemical conversions for sustainability,
which further replies on metallic nanocrystals as vital electrocatalysts. Intermetallic …

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 …

The control of multimetallic ensembles at the atomic‐level is challenging, especially for high‐
entropy alloys (HEAs) possessing five or more elements. Herein, the one‐pot synthesis of …

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 …

The splitting of water through electrocatalysis offers a sustainable method for the production
of hydrogen. In alkaline electrolytes, the lack of protons forces water dissociation to occur …

Hydrogen energy is regarded as the ultimate energy source for future human society, and
the preparation of hydrogen from water electrolysis is recognized as the most ideal way. One …

High entropy metal oxides (HEO) are superior to many reactions involving multi‐step
elementary reactions. However, controlled synthesis of hollow‐structured HEO catalysts …

The electrocatalytic performance of metal–nitrogen–carbon (M─ N─ C) single‐atom
catalysts remains a significant challenge due to their rigid active center. Controllable tuning …

Controlling multimetallic ensembles at the atomic level is significantly challenging,
particularly for high-entropy alloys with more than five elements. Herein, we report an …

High entropy alloys are made by mixing five or more elements at equal or nearly equal
atomic ratios. They have demonstrated significant interests in many fields. However, due to …