The urea oxidation reaction (UOR) is technologically important for the development of a
renewable energy infrastructure. Urea electrolysis (UE) can be used to produce hydrogen …

Sustainable electrochemical energy conversion/storage technologies such as photovoltaic
solar cells, energy-saving hydrogen (H 2) production via an electrocatalytic water splitting …

Exploring earth‐abundant electrocatalysts with excellent activity, robust stability, and
multiple functions is crucial for electrolytic hydrogen generation. Porous phosphorized …

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

Nowadays, urea‐rich wastewater has become a big threat to human health. Electrocatalytic
techniques can convert urea from urea‐rich wastewater to hydrogen for ecological …

Transition metal carbonate hydroxides (M− CHs) are promising candidates for electrode
materials in supercapattery, due to their low-cost preparation and high-energy features …

A supercapacitor is an efficient energy storage system that acts as an excellent booster to
deliver high power density required for batteries and fuel cells. Recently, composite material …

The change in the climate is considered a critical environmental issue that humanity will
deal with through the next decade. Herein, the ultrasonic-assisted method prepared the …

It is still a challenge to improve the electronic conductivity and expose more active sites of
metal-organic frameworks (MOFs). Herein, the fishbone-like Ni 3 S 2/Co 3 S 4 grown on …

The scarcity and high cost of PGM electrocatalysts are the key bottleneck in the mass-scale
commercialization of many electrolysis technologies. Bifunctional single-atom …