Transition metal‐based oxyhydroxides (MOOH) derived from the irreversible structural
reconstruction of precatalysts are often acknowledged as the real catalytic species for the …

Electrochemical water splitting represents a promising technology for green hydrogen
production. To design advanced electrocatalysts, it is crucial to identify their active sites and …

Hydrogen energy is an important cornerstone for realizing net-zero and sustainable
development plans. The successful construction of a hydrogen society requires …

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

In recent years, both-organic frameworks (MOFs) based and covalent-organic frameworks
(COFs) based materials have been extensively utilized for catalysis because of their specific …

Significant progress has been made in the discovery of bifunctional electrocatalysts for
energy storage and conversion systems. Particularly, high-performance bifunctional …

The development of efficient electrochemical seawater splitting catalysts for large-scale
hydrogen production is of great importance. In this work, we report an amorphous Co-Mo-B …

Lithium–sulfur batteries (LSBs) have attracted significant attention as a promising next-
generation energy storage system due to their high theoretical energy density, low cost, and …

Transition-metal-based high-entropy oxides (HEOs) are appealing electrocatalysts for
oxygen evolution reaction (OER) due to their unique structure, variable composition and …

As a crucial route for the development of clean and sustainable energy systems,
electrochemical water splitting has received much attention. Designing high-performance …