Ion exchange membrane electrolysis cell that achieves both high-purity oxidant production and gas separation.
This product is an ion exchange membrane electrolytic cell that reliably separates the anode chamber and cathode chamber using a cation exchange membrane. It employs a φ150mm BDD (Boron-Doped Diamond) electrode, enabling stable oxidation reactions even under high current densities. The exterior is made of PTFE, providing high durability even in strong acid environments such as sulfuric acid. Since the anode and cathode are independent, gases generated from each electrode can be safely collected separately. By simply combining it with your existing DC power supply, pump, and beaker, you can easily generate oxidants such as electrolytic sulfuric acid and persulfate. It supports reproducible electrolysis experiments, from small-scale tests for research and development to condition evaluations. It is suitable for a wide range of applications, including CFRP recycling, surface treatment, oxidant generation, and material evaluation.
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basic information
【Product Name】 Ion Exchange Membrane Electrolytic Cell 【Type】 Membrane Type (Cation Exchange Membrane: Nafion N424) 【Electrode Material】 Anode: Boron-Doped Diamond (BDD) φ150 mm Cathode: Boron-Doped Diamond (BDD) φ150 mm 【Electrode Size】 Diameter: 150 mm² 【Cell Structure】 Two-Chamber Type (Anode Chamber / Cathode Chamber) Outer Material: PTFE (Chemical Resistant) Gas Separation Structure: Completely Separated by Ion Exchange Membrane 【Compatible Electrolyte】 Sulfuric Acid, Nitric Acid, Electrolyte for Persulfate Production, Other Acidic Aqueous Solutions 【Recommended Current Density】 Up to 30 A/dm²
Price range
P5
Delivery Time
Applications/Examples of results
【Examples of Use】 - Persulfate generation - Research on electrochemical oxidation reactions - CFRP recycling - Surface treatment/pre-treatment - Material evaluation/electrode evaluation
Company information
Our company is a manufacturer that synthesizes and produces conductive diamonds using CVD. We have conducted research focused on film formation conditions over many years, establishing know-how for durability, high conductivity, and stable film formation over large areas. Diamonds, which possess unique properties such as high hardness, refractive index, thermal conductivity, and chemical stability, are increasingly in demand as materials that can respond to technological advancements and environmental impact reduction. Please feel free to contact us if you have any inquiries.




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