The energy efficiency of metal–air batteries and water‐splitting techniques is severely
constrained by multiple electronic transfers in the heterogenous oxygen evolution reaction …

Strain engineering of nanomaterials, namely, designing, tuning, or controlling surface strains
of nanomaterials is an effective strategy to achieve outstanding performance in different …

As an emerging class of materials with distinctive physicochemical properties, metallenes
are deemed as efficient catalysts for energy-related electrocatalytic reactions. Engineering …

A proton exchange membrane water electrolyzer (PEMWE) in acidic medium is a hopeful
scenario for hydrogen production using renewable energy, but the grand challenge lies in …

Hydride metallenes show great potential for hydrogen-related catalytic applications due to
favorable electronic structures modulated by interstitial hydrogen atoms and large active …

Controlled construction of bimetallic nanostructures with a well-defined heterophase is of
great significance for developing highly efficient nanocatalysts and investigating the …

The development of efficient and durable electrocatalysts is the only way to achieve
commercial fuel cells. A new, efficient method was utilized for epitaxial growth of gold …

The development of electrochemical energy storage devices that can provide both high
power and high energy density is in high demand around the world. The scientific …

Developing high‐efficiency electrocatalysts for the hydrogen evolution and oxidation
reactions (HER/HOR) in alkaline electrolytes is of critical importance for realizing renewable …

Controlling the structure and properties of catalysts through atomic arrangement is the
source of producing a new generation of advanced catalysts. A highly active and stable …