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Watch our product video showcasing the single-side coated BDD diamond electrode. This electrode features a two-layer structure: the black layer is boron-doped diamond – the active working surface – and the silver layer underneath is single-crystal silicon, serving as the conductive substrate .
BDD diamond (Boron-Doped Diamond) is widely recognized as one of the most efficient electrode materials for electrochemical advanced oxidation processes . When energized in water, it generates powerful hydroxyl radicals that break down persistent organic pollutants – including dyes, pharmaceuticals, and industrial chemicals – that conventional treatment methods cannot handle .
Key advantages of our BDD diamond electrode:
Extreme durability: The diamond layer provides exceptional corrosion resistance and long-term stability, even in harsh acidic or alkaline environments
No peeling or degradation: Unlike coated metal electrodes, our BDD diamond maintains consistent performance over time
Wide electrochemical window: Enables efficient generation of hydroxyl radicals for complete mineralization of organic contaminants
Low maintenance: The diamond surface resists fouling and passivation
Primary applications include:
Industrial wastewater treatment for pharmaceutical, chemical, and petrochemical industries
Degradation of toxic and refractory organic compounds
Electrochemical oxidation of high-salinity and high-concentration wastewater
Treatment of landfill leachate, dye wastewater, and other challenging effluents
Our BDD diamond electrode offers a simple design with serious oxidation power. Watch the video to see how this advanced electrode material can solve your toughest water treatment challenges.
