【Ultra-High Oxygen Evolution Potential – Unleash Powerful Oxidation】 With an oxygen evolution potential exceeding 1.70V (vs. SCE) —significantly higher than conventional electrodes—this PbO₂/Ti anode generates hydroxyl radicals (·OH), one of the strongest oxidants known. Perfect for degrading persistent organic pollutants that traditional methods can't handle.
【Stop Struggling with Stubborn Wastewater】 Designed for electrocatalytic oxidation of hard-to-treat industrial wastewater—dyes, phenols and landfill leachate. Achieve efficient COD removal, decolorization, and improved BOD/COD ratio with an electrode built for the toughest applications.
【Exceptional Stability in Aggressive Environments】 Performs reliably where other electrodes fail. Excellent corrosion resistance in strong acids (sulfuric, nitric) and high-chloride solutions. Titanium substrate provides mechanical strength, and when the PbO₂ layer is depleted, the substrate can be recoated—extending value over the long term.
【Important: NOT a MMO Electrode】 This is a lead dioxide (PbO₂) coated titanium anode, not a Mixed Metal Oxide (MMO) electrode. While MMO anodes excel at chlorine evolution (e.g., pool chlorinators), PbO₂ is specifically engineered for applications requiring extreme oxidative power. Choose the right tool for your research.
【Lab-Ready 100x50x3mm Dimensions】 Precision-sized for laboratory-scale experiments, pilot studies, and bench-scale testing. Compact and ready to use—ideal for academic research, environmental engineering studies, and small-scale electrosynthesis applications. No custom fabrication needed.
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