Water electrolysis is the most promising method for efficient production of high purity
hydrogen (and oxygen), while the required power input for the electrolysis process can be …

The oxygen evolution and reduction reactions are two extremely important reactions in terms
of energy applications. Currently, the Oxygen Evolution Reaction (OER) hinders the efficient …

The fabrication of porous structure in the ultrathin materials still faces high difficulties. In
particular, the precise modulations in the porosity and size are highly challenging. In this …

Electrocatalytic oxygen evolution reaction (OER) is a core reaction responsible for
converting renewable electricity into storable fuels; yet, it is kinetically challenging, because …

Creative approaches to the design of catalytic nanomaterials are necessary in achieving
environmentally sustainable energy sources. Integrating dissimilar metals into a single …

Increasing demand for finding eco-friendly and everlasting energy sources is now totally
depending on fuel cell technology. Though it is an eco-friendly way of producing energy for …

Downsizing the catalyst to atomic scale provides an effective way to maximize the atom
efficiency and enhance activity for electrocatalysis. Here, we report a concept whereby …

The future large‐scale deployment of rechargeable zinc–air batteries requires the
development of cheap, stable, and efficient bifunctional electrocatalysts for the oxygen …

Ni–Fe oxyhydroxides are the most active known electrocatalysts for the oxygen evolution
reaction (OER) in alkaline electrolytes and are therefore of great scientific and technological …

The oxygen evolution reaction is a key reaction in water splitting. The common approach in
the development of oxygen evolution catalysts is to search for catalytic materials with new …