Water splitting has been regarded as a sustainable and environmentally-friendly technique
to realize green hydrogen generation, while more energy is consumed due to the high …

Graphene research has become an emerging frontier in materials science because of its
potential as a versatile material in multiple applications, from electronics, sensors, water …

It is highly desired to design high-performance bifunctional electrocatalysts for an efficient
oxygen evolution reaction (OER) and urea oxidation reaction (UOR) as anode water …

Urea oxidation reaction (UOR) is the underlying reaction that determines the performance of
modern urea‐based energy conversion technologies. These technologies include …

The urea oxidation reaction (UOR) is a pivotal half-reaction for urea-assisted water splitting
to produce hydrogen, direct urea fuel cells and electrochemical degradation of urea …

Photo/electrochemical splitting of water to hydrogen (H2) fuel is a sustainable way of
meeting our energy demands at no environmental cost, but significant challenges remain …

The electrocatalytic urea oxidation reaction (UOR) provides more economic electrons than
water oxidation for various renewable energy‐related systems owing to its lower …

Urea electrolysis is regarded as an effective method for addressing both energy and
environment issues. Herein, we successfully synthesized Ni2P nanoflakes for catalyzing the …

A considerable amount of research has been devoted to the synthesis of graphene materials
via graphene oxide (GO) precursor during recent years due to the fact that it is ease in …

Develo** bifunctional catalysts toward urea oxidation and hydrogen evolution is a huge
challenge. In this study, novel MOF-derived nickel nitride on nickel foam catalysts were …