The oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) are core steps of
various energy conversion and storage systems. However, their sluggish reaction kinetics …

Developing high-efficiency and low-cost catalysts towards oxygen evolution reaction (OER)
is extremely important for overall water splitting and rechargeable metal− air batteries …

The scalable production of inexpensive, efficient, and robust catalysts for oxygen evolution
reaction (OER) that can deliver high current densities at low potentials is critical for the …

A noble-metal-free electrocatalyst comprised of hybrid Ni 2 P− MnP nanosheet coupled with
Co 2 P nanoflowers (Ni 2 P− MnP@ Co 2 P) reinforced on nickel foam has been achieved …

Electrochemical water splitting plays a vital role in facilitating the transition towards a
sustainable energy future by enabling renewable hydrogen (H2) production, energy storage …

Fe-containing transition-metal (oxy) hydroxides are highly active oxygen-evolution reaction
(OER) electrocatalysts in alkaline media and ubiquitously form across many materials …

Achieving large current density is crucial to the practical application of large-scale hydrogen
production by water splitting, but it is hindered by sluggish and unstable catalysts. Herein, a …

Transition metal-based pre-catalysts undergo drastic reconstruction to form the active
catalysts during the alkaline oxygen evolution reaction (OER). However, the effect of …

In promising transition metal sulfide catalysts, the extraordinary instability under air exposure
and oxygen evolution reaction (OER) catalysis severely degrades their activity and stability …

Nickel-iron layered double hydroxides are known to be one of the most highly active
catalysts for the oxygen evolution reaction in alkaline conditions. The high electrocatalytic …