Boron Doped Diamond Solutions
Boron doped diamond electrode, functions as fundamentals for multiple electrochemical applications, demonstrates a portfolio of unparalleled properties such as dimensional stability, superb chemical stability, largest electrochemical potential window which increase oxygen evolution potential and electrochemical generation of hydroxyl radical in low background current, enhance the electrochemical oxidation reaction efficiency. These properties dtinguishing boron doped diamond electrode as unparalleled in the realm of electrochemistry. Their standout features include an impressively expansive potential window, surpassing that of any other electrode material.resistance to surface fouling ensuring prolonged and consistent performance are added benefits to this excellent electrode material for various applications, especially electrochemical oxidation treatment applications. Boromond developed a large collections of boron doped diamond electrodes and materials targeting a broad range of markets, especially organic wastewater treatment. The boron doped diamond solutions collection is offered to customers to further advance the technology and develop products. The collection includes: Boron doped diamond fabrication. Boron doped diamond electrolysis. Electrochemical oxidation with boron doped diamond electrodes.
*Potential Window & Background Current Comparison Among Boron Doped Diamond Electrode and MMO Electrodes, Conventional Electrodes.
*Potential window comparison between Boron Doped Diamond Electrode, and Pb,MOX Electrodes (iridium oxide), and platinum electrode.
Boron Doped Diamond Fabrication On Industrial Scale As Basic of Boron Doped Diamond Solution And Commercially Available Applications
We always deliver professional electrode fabrication to conduct synthetic diamond growth. We adopt Chemical Vapor Deposition (CVD) method, Hot-Filament Chemical Vapor Deposition (HFCVD) to be precise, to fabricate high performance and superb quality boron doped diamond electrodes, followed by post-growth heat treatment such heat treatment via air. Our boron doped diamond electrodes are grown mainly on silicon and niobium. We extends to selecting and utilizing raw materials for diverse applications and cost optimization. Followed by laser cutting, electrode assembly aggregate Boromond’s ability to offer one stop solutions for boron doped diamond electrode development and further applications.
Advanced Electrochemical Oxidation with Boron Doped Diamond Electrode
Boromond team spent years to study and utilize advanced electrochemical advanced oxidation processes (EAOP) with boron doped diamond electrodes, EAOP is a promising advancement in wastewater treatment industry, EAOP conducted via BDD electrode was proven to be the most efficient treatment methods to eliminate refractory rollutants from real wastewater.
Boron doped diamond electrodes combines stability, anti-fouling, and prolonged working time, unmatched electrochemical reaction performances for electrochemical oxidation applications, including advanced electro oxidation. During this innovative advanced electro oxidation processes, boron doped diamond electrode as the anode material, generate hydroxyl radicals from its surface, OH radicals is one of the most active oxidants as it’s with the second highest oxidation potential amongst all oxidizing agents, and hydroxyl radicals mineralize almost all sorts of organic molecules for its non-selective oxidation natures, which means hydroxyl radicals mineralize all types of organic pollutants to CO2, water and substances.
Boron doped diamond electrodes have demonstrated promising results for applications of water treatment.
Boromond summarized organic compounds we treated within previous experiments and projects:
Remediation of total organic carbon (TOC).
Chemical oxygen demand (COD). Total ammonia nitrogen (TAN).
Removing total nitrogen from polluted water. Active Pharmaceutical Ingredients (APIs),antibiotics, steroids from pharmaceutical sectors.
BTEX,Phenols, TOC, and TPH from petrochemical industries.
Dimethyl carbonate (DMC), Ethylene carbonate (EC/C3H4O3), Ethyl Methyl Carbonate (EMC), Diethyl carbonate (DEC/C5H10O3) and etc, those are typical organic pollutants from lithium-ion battery production and recycling businesses.
What is more, we can conduct free water profile assessment if you are interested in exploring advanced electro oxidation using boron doped diamond electrodes for your water treatment experiments, evaluation and projects. And we offer boron doped diamond electrodes customizations for all types of electrochemical oxidation applications, to fit your experimental and evaluation processes.
Boron Doped Diamond Electrolysis & Boron Doped Diamond Solutions
Boromond team explain application of boron doped diamond electrode for electrochemical treatment of wastewater, especially complex industrial effluents with high concentration, recalcitrant organic compounds.
01
Best anode material
Boron doped diamond electrode got extremely high oxygen evolution potential and the widest electrochemical window among all electrodes.
02
Efficient
Superb organic pollutant removal efficiency, resistant to acid and alkali, less fouling, easy to operate and maintenance.
03
Eco-friendly
No extra toxic chemicals need to be added to the electro oxdiation processes. Hydroxyl radicals mineralize organic compounds.
Basic Components of Boron Doped Diamond Solutions: Boron Doped Diamond Electrode
We supply boron doped diamond electrode plates at different shapes,for instance, rectangle,square, mesh. Most of the BDD electrode plates are fabricated on Silicon substrates, are available for various electrochemical applications, Boromond have become one of the manufacturers and suppliers who can fabricate commercial available large area boron doped diamond electrode all over the world. Check the substrates and sizes of BDD electrodes we can offer by clicking the inventory list within the pdf below. Feel free to contact Boromond team to discuss about customization your own BDD electrode plate.
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