Electrochemical reduction has emerged as a viable technology for the removal of a variety of
organic contaminants from water. Atomic hydrogen (H*) is the primary species generated in …

With the development of our society, the desire to recover valuable metal resources from
metal-containing wastewaters or natural water bodies is becoming increasingly stronger …

Fine-tuning the geometric and electronic structure of catalytic metal centers via N-
coordination engineering offers an effective design for the electrocatalytic transformation of …

Develo** advanced heterogeneous catalysts with atomically dispersed active sites is an
efficient strategy to boost the kinetics of peroxymonosulfate (PMS) activation for …

Abstract Single-atom catalysts (SACs), consisting of metal single atoms and supporting
materials, have shown remarkable potential due to their ultrahigh catalytic performances …

Phosphorus removal and recovery are important because phosphorus is both a water
contaminant and present in chemicals used in agriculture and various industries. As an …

With the continuous exploitation and loss of phosphorus (P) resources and the challenging
natural closed-loop recovery of P, the P crisis has become an issue that must be urgently …

Herein, we present a flow-through electro-Fenton system for highly efficient and selective
degradation of organic contaminants. The essential to this design was a functional …

Reactions on anode and cathode are crucial for efficient electrical energy within the
electrocatalysis conversion operation. Electrocataffncialytic anodic oxidation followed by …

The oily water treatment is becoming one of the hottest topics due to that increase of offshore
oil transportation and the various accident oil leakages. In this study, a functional TiO 2-ABS …