Cobalt/nitrogen co-carved carbon nanorod for efficient Fenton-like reaction: Degradation efficacy, reaction mechanism and singlet oxygen generation

“…Thus, more active sites are provided, and the alkalinity of the catalyst surface may be enhanced to promote the catalytic reaction. [25] In addition, the increase of oxygen-containing functional groups may also improve the specific surface area of the catalyst surface, which is consistent with the previous characterization results.…”

Ni/Fe Bimetallic Atom Cluster Activate PMS To Promote ¹O₂ Production To Efficiently Remove BPA

“…Thus, more active sites are provided, and the alkalinity of the catalyst surface may be enhanced to promote the catalytic reaction. [25] In addition, the increase of oxygen-containing functional groups may also improve the specific surface area of the catalyst surface, which is consistent with the previous characterization results.…”

Ni/Fe Bimetallic Atom Cluster Activate PMS To Promote ¹O₂ Production To Efficiently Remove BPA

“…Developing effective catalysts to replace precious metals has attracted widespread attention. Transition metals possess unoccupied valence d orbitals and numerous single electrons, [1][2][3][4][5][6] which facilitate the formation of steadfast metal ions or complexes, making them an ideal alternative to precious metal-based catalysts. [7][8][9][10][11] With the increasing population and the development of industrialization, persistent organic pollutants such as antibiotics and cyclic aromatic compounds have been detected in water samples from a wide range of living environments, and many efforts have been made to tackle this problem.…”

Double pyramid stacked CoO nano-crystals induced by graphene at low temperatures as highly efficient Fenton-like catalysts

Efficient activation of peroxymonosulfate-based Fenton-like system using CuCo2O4/g-C3N4 prepared by Cu+-Co2+ self-doped: g-C3N4 driven reduction-oxidation cycling mechanism of Cu and Co metals