Efficient removal of bromate from contaminated water using electrochemical membrane filtration with metal heteroatom interface

“…developed an electrified membrane system consisting of bimetallic Pd and Fe nanoparticles (Pd− Fe NPs) loaded on a CNTs membrane.78 The bimetallic design significantly improved the catalytic activity for electrochemical H* generation, and the flow-through design enhanced the mass transfer of Sb, resulting in the effective generation of atomic H* and improved Sb removal efficiency. Furthermore, Li et al developed an electrochemical membrane system with a bimetallic atomic system of Ru and Ni to enhance the production and utilization efficiency of atomic H* 98. CV and ESR spectra were used to verify the existence and contribution of the atomic H*.…”

Electro-Fenton-Based Membrane System for Organic Micropollutant Removal: New Trend and Prospect

“…developed an electrified membrane system consisting of bimetallic Pd and Fe nanoparticles (Pd− Fe NPs) loaded on a CNTs membrane.78 The bimetallic design significantly improved the catalytic activity for electrochemical H* generation, and the flow-through design enhanced the mass transfer of Sb, resulting in the effective generation of atomic H* and improved Sb removal efficiency. Furthermore, Li et al developed an electrochemical membrane system with a bimetallic atomic system of Ru and Ni to enhance the production and utilization efficiency of atomic H* 98. CV and ESR spectra were used to verify the existence and contribution of the atomic H*.…”

Electro-Fenton-Based Membrane System for Organic Micropollutant Removal: New Trend and Prospect

In situ redox growth of Pd/CuOx for enhanced electrocatalytic degradation of organic chlorides via indirect atomic H* reduction

Bromate in drinking water: Occurrence and removal by ultraviolet/sulfite advanced reduction processes