Oxygen evolution reaction (OER) is the core electrode reaction in energy-related
technologies, such as electrolytic water, electrocatalytic carbon dioxide reduction …

The deployment of hydrogen as an energy carrier is found to be a vital alternative fuel for the
future. It is expected that water electrolysis, powered by renewable energy sources, be able …

Rational design of the catalysts is impressive for sustainable energy conversion. However,
there is a grand challenge to engineer active sites at the interface. Herein, hierarchical …

Water electrolysis plays a crucial role among the strategies for hydrogen generation to
replace the conventional fossil fuels. Many efforts have been devoted to develo** efficient …

Hydrogen production via water electrocatalysis is limited by the sluggish anodic oxygen
evolution reaction (OER) that requires a high overpotential. In response, a urea‐assisted …

Exploring noble-metal-free electrocatalysts with high efficiency for both the hydrogen
evolution reaction (HER) and the oxygen evolution reaction (OER) holds promise for …

Efficient oxygen-evolution reaction catalysts are required for the cost-effective generation of
solar fuels. Metal selenides have been reported as promising oxygen-evolution catalysts; …

The oxygen evolution reaction (OER) is a key process that enables the storage of renewable
energies in the form of chemical fuels. Here, we describe a catalyst that exhibits turnover …

Efficient and durable electrocatalysts from earth-abundant elements play a vital role in the
key renewable energy technologies including overall water splitting and hydrogen fuel cells …

A 2D/2D coupled NiCo2O4/g-C3N4 nanostructure was fabricated through an in situ growth
strategy. NiCo2O4 worked as a novel oxygen-evolution-reaction cocatalyst, and the intimate …