A high acid environment is great for a snappy hydrogen oxidation reaction—the reaction at the heart of a clean-energy fuel ...

The content details various categories of AOPs—including ozone-based, radiation-driven, catalytic, and physical methods—highlighting their mechanisms, chemicals involved, ...

Researchers have directly observed a fleeting molecule known as tetroxides that has been theorised for more than half a ...

This study presents a novel catalysis system utilizing single rare earth atoms (Tb, Ho, Gd, Er) doped into graphitic carbon nitride supported on Pt nanoparticles (GCN-RE-Pt) to enhance HOR kinetics in ...

The incorporation of Bi into Pt induces d–p orbital hybridization in the PtBi nanodendrites composed of ultrathin bimetallene ...

A research team led by Prof. Xiaoqiang Huang from Nanjing University has achieved a major breakthrough in the field of asymmetric electroenzymatic catalysis, developing a novel non-natural dynamic ...

Study demonstrates how charge engineering can deactivate competing reaction pathways to boost ammonia electrosynthesis ...

A newly developed pentanuclear iron complex can offer an efficient, stable, and cost-effective solution for water oxidation. By electrochemically polymerizing the complex, researchers have obtained a ...

Overall, the three different antibiotics necessitated the development of three separate protocols for selective oxidation.

Sunlight hits tiny particles of plastic floating in a clear water solution. Slowly, they begin to disappear, leaving behind a ...