Heterogeneous electrocatalysis lies at the center of various technologies that could help
enable a sustainable future. However, its complexity makes it challenging to accurately and …

Beyond conventional electrocatalyst engineering, recent studies have unveiled the
effectiveness of manipulating the local reaction environment in enhancing the performance …

Ruthenium exhibits comparable or even better alkaline hydrogen evolution reaction activity
than platinum, however, the mechanistic aspects are yet to be settled, which are elucidated …

In analogy to natural enzymes, an elaborated design of catalytic systems with a specifically
tailored local chemical environment could substantially improve reaction kinetics, effectively …

Rare‐earth (RE) elements have emerged as crucial promoters to regulate the
electrocatalysis of transition metals (TM), but knowledge about the RE‐enhanced …

Hydrogen production coupled with biomass upgrading is vital for future sustainable energy
developments. However, most biomass electrooxidation reactions suffer from high working …

Disordered solid‐solution high‐entropy alloys have attracted wide research attention as
robust electrocatalysts. In comparison, ordered high‐entropy intermetallics have been hardly …

The hydrogen evolution reaction (HER) is known to be influenced by the identity of alkali
metal cations in the electrolyte. But a clear understanding of this behavior has not been …

The electrocatalytic oxygen evolution reaction (OER) supplies the protons and electrons
needed to transform renewable electricity into chemicals and fuels. However, the OER is …

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 …