The implementation of nanostructured materials in electrochemistry implied the
enhancement of conversion yield in fuel cell, in electrosynthesis of oxidants and electrolytic …

Dye-contaminated wastewater is hardly treated with conventional treatments. Consequently,
there is an urgent need to develop powerful oxidation methods to ensure their removal and …

Considering the growing need in decentralized water treatment, the application of
electrocatalytic processes (EP) to achieve organic wastewater purification will be dominant …

Advanced oxidation processes are commonly considered one of the most effective
techniques to degrade refractory organic pollutants, but the limitation of a single process …

Diamond is a promising electrode candidate, stemming from its wide electrochemical
potential window, high stability, easily tunable surface termination, functionalization and …

As a highly reactive oxidative species, chlorine radicals (E Cl• 0= 2.47 V vs standard
hydrogen electrode, SHE) could react with carboxylic and amino group-containing organic …

To comprehensively understand the relationship between substrate type and boron doped
diamond (BDD) electrode structure, performance and antibiotic tetracycline mineralization …

Boron-doped diamond (BDD) is commonly considered as an excellent electrode material
toward electrochemical oxidation, and its specific surface area is an important factor in …

Boron-doped diamond (BDD) is an ideal material being used for electrocatalytic elimination
of environmental organic pollutants, but the commercial BDD electrodes have several …

Abstract Development of a 3D self-standing porous anode that can efficiently generate• OH
at low potential remains exceptionally challenging for the electrofiltration technology. Herein …