Hydrogen, a new energy carrier that can replace traditional fossil fuels, is seen as one of the
most promising clean energy sources. The use of renewable electricity to drive hydrogen …

Sunlight-driven water splitting to produce hydrogen fuel has stimulated intensive scientific
interest, as this technology has the potential to revolutionize fossil fuel-based energy …

Single-atom catalysts (SACs) are advantageous because every active atom is exposed at
the surface, ensuring maximum utilization of catalytically active metals. To optimize the …

The electrochemical nitrate reduction reaction (NITRR) is an appealing method for ammonia
synthesis, owing to the ambient conditions as well as its abundant sources, low dissociation …

H 2 gas is considered to be an ideal green energy carrier that can replace fossil fuels to
ameliorate the rapidly increasing global issues of energy crisis and environmental pollution …

Constructing noble metal single-atom catalysts (NMSACs) is essential to boosting the water
splitting electrocatalysis by virtue of their maximum atom utilization and distinctive electronic …

The rational design of effective catalysts for sluggish oxygen evolution reactions (OERs) is
desired but challenging. Nickel‐iron (NiFe)(oxy) hydroxides are promising pre …

Abstract Ruthenium (Ru)‐based catalysts, with considerable performance and desirable
cost, are becoming highly interesting candidates to replace platinum (Pt) in the alkaline …

Multicomponent metallic nanomaterials with unconventional phases show great prospects in
electrochemical energy storage and conversion, owing to unique crystal structures and …

Electrolytic hydrogen is expected to play a key role in the production of green fuels and
chemicals, while contributing to balancing consumption and supply in the future electricity …