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

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

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 ...

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 ...

Associate Professor Muhammet Uyanik (L), Professor Kazuaki Ishihara (R), and graduate student Ryutaro Kondo have improved their iodine-based catalyst system to work efficiently at lower temperatures, ...

Researchers have directly observed organic hydrotrioxides forming in Earth’s atmosphere, confirming the existence of a class of potent oxidizing molecules that scientists had predicted for decades but ...

This module covers aldehydes and ketones as the substrates and products of redox reactions. Structure is explained with both Lewis structures and molecular orbitals to discuss mechanisms in the ...

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

Localized anodic oxidation reaction of the material in acidic solution provides method of oxide film to rapidly and reversibly switch between silver surface and matte black.