Over the years, significant advances have been made to boost the efficiency of water
splitting by carefully designing economic electrocatalysts with augmented conductivity, more …

As a clean energy carrier, hydrogen has priority in decarbonization to build sustainable and
carbon-neutral economies due to its high energy density and no pollutant emission upon …

Develo** highly effective transition metal‐based bifunctional electrocatalysts remains a
tremendously challenging task for large‐scale overall water splitting. Herein, a …

Reducing green hydrogen production costs is essential for develo** a hydrogen
economy. Develo** cost‐effective electrocatalysts for water electrolysis is thus of great …

Oxygen evolution reaction (OER) is a key step for electrochemical water splitting and
understanding the surface reconstruction of OER pre-catalysts is of vital importance. Herein …

Electrocatalytic water splitting for generating green hydrogen is regarded as one of the most
promising pathways to change the global energy structure and achieve the global mission of …

Hydrogen produced from water electrolysis is a promising alternative to fossil fuels. The
oxygen evolution reaction (OER), which occurs at the anode, involves a four-electron …

Constructing heterojunction is an effective strategy to develop high-performance non-
precious-metal-based catalysts for electrochemical water splitting (WS). Herein, we design …

Preparing advanced electrocatalysts via solid-phase reactions encounters the challenge of
low controllability for multiconstituent hybridization and microstructure modulation. Herein, a …

Sustainable production of H2 through electrochemical water splitting is of great importance
in the foreseeable future. Transition‐metal metaphosphates (TMMPs) have a three …