This series of
Boron-doped Diamond (BDD) Electrodes is fabricated via Chemical Vapor Deposition (CVD) technology, featuring an ultra-wide electrochemical window, extremely low background current, and excellent corrosion resistance. They are ideal for applications including industrial wastewater treatment, electrochemical oxidation, and organic electrosynthesis. The core specifications are as follows:
| No. |
Dimensions (L×W×Thickness) |
| 1 |
100×50×3 mm |
| 2 |
100×100×3 mm |
| 3 |
320×180×5 mm |
Product Features
- Structure & Material: Based on a diamond substrate, boron doping imparts electrical conductivity, with a high-purity BDD coating on both sides for dual-sided use.
- Size Adaptability: We offer small-sized lab-grade electrodes (100×50 mm, 100×100 mm, 3 mm thick) and large-sized industrial-grade electrodes (320×180 mm, 5 mm thick), catering to both R&D and large-scale industrial production needs.
- Customizable Dimensions: We support full customization of any length, width, and thickness to fit specific industrial electrolyzers, equipment setups, and experimental configurations.
- Application Scenarios:
- Small-sized electrodes: Suitable for laboratory electrochemical analysis, bench-scale wastewater treatment, and mechanism research.
- Large-sized electrodes: Ideal for pilot-scale and industrial organic electrosynthesis, as well as advanced oxidation treatment of refractory organic wastewater.
- Performance Advantages: Stable in strong acid, strong alkali, and high-potential environments; free from electrode poisoning risk; capable of complete mineralization of pollutants, making them a core material in advanced electrochemical fields.
Additional Notes
- All models are designed for double-sided utilization to maximize electrode area efficiency.
- Beyond dimensions, customization of wiring methods, packaging forms, and coating parameters is available to meet diverse industrial and scientific research requirements.
