Energy and environmental issues have attracted increasing attention globally, where
sustainability and low-carbon emissions are seriously considered and widely accepted by …

High‐entropy materials (HEMs) have been in the spotlight as emerging catalysts for
electrochemical water splitting. In particular, HEM catalysts feature multi‐element active sites …

Designing highly-efficient and stable bifunctional seawater splitting electrocatalyst is
fascinating, but still face challenges. Guided by unique interfacial properties within …

The development of stable electrocatalysts with high hydrogen and oxygen evolution
reactions (HER and OER) activity in alkaline electrolytes is critical to renewable energy …

Engineering of structure and composition is essential but still challenging for electrocatalytic
activity modulation. Herein, hybrid nanostructured arrays (HNA) with branched and aligned …

Water electrolysis is a promising technology for sustainable energy conversion and storage
of intermittent and fluctuating renewable energy sources and production of high-purity …

Alternating magnetic field (AMF) is a promising methodology for further improving magnetic
single-atom catalyst (SAC) activity toward oxygen evolution reaction (OER). Herein, the …

It is of great importance to rationally design and develop earth-abundant nanocatalysts for
high-efficiency water electrolysis. Herein, NiFe layered double hydroxide was in situ grown …

High‐valence metal‐doped multimetal (oxy) hydroxides outperform noble metal
electrocatalysts for the oxygen evolution reaction (OER) owing to the modified energetics …

Transition metal nitrides have shown large potential in industrial application for realization of
the high active and large current density toward overall water splitting, a strategy to …