Electrochemical hydrogen evolution via water splitting has been regarded as a highly
promising technique for fossil-fuel substitution in the future to avoid environmental pollution …

Electrocatalysis provides an advisable way to build a clean energy future by rationally
manipulating energy conversion and storage. Monitoring probable changes of catalytic …

The rapid development of population, industry, and urbanization have generated significant
issues including energy consumption and water contamination. Advanced materials are …

Highlights Three-dimensional (3D) core‐shell heterostructured NixSy@ MnOxHy nanorods
grown on nickel foam (NixSy@ MnOxHy/NF) were successfully fabricated via a simple …

Surface self‐reconstruction via incorporating an amorphous structure on the surface of a
catalyst can induce abundant defects and unsaturated sites for enhanced hydrogen …

Efficient oxygen evolution reaction (OER) electrocatalyst is essential for water electrolysis.
Herein, high-performance NiFe-based layered double hydroxides (LDH), phosphide and …

In promising transition metal sulfide catalysts, the extraordinary instability under air exposure
and oxygen evolution reaction (OER) catalysis severely degrades their activity and stability …

Deep insight into electrochemical reconstruction aids in the decoding of electrocatalytic
mechanisms and the development of design principles for advanced catalysts. Despite …

Homogeneous heterogeneous (heterophase) interfaces regulated with low energy barriers
have a fast response to applied electric fields and could provide a unique interfacial …

The alkaline hydrogen evolution reaction (HER) activity of layered metal hydroxides is not
satisfactory due to their poor electrical conductivity and limited active sites. Taking Ni (OH) 2 …