Boron-Doped Diamond Electrode Solution
Boron-Doped Diamond Electrode
Boromond team did not stop Simply send your water profile, and discuss your projects with our wastewater treatment experts to find out how electrochemical oxidation solutions, including full scale electro-oxidation wastewater treatment products, comprehensive solution and project proposaling, and with our professional engineering consulting, design, system fabrication and then integration services help, not just complete destructions of refractory organic pollutants, but also water reuse.
Brief Introduction About The Boron-Doped Diamond Electrode
Boron-doped diamond (BDD) is an excellent electrode material with a large potential window in aqueous solution and low background current. The wider potential window and lower background currents make the BDD material very attractive for electrochemical analysis experiments. Reactions occurring in potential ranges from about -0.5V to -1.2V and about +1.8V to 2.5V can now be analyzed which could not be analyzed on traditional electrode surfaces such as Au and Pt.
The lower background current allows for higher sensitivity and lower detection limits. Extreme stability, biocompatibility and resistance to surface fouling are added benefits to this exceptional electrode material.
Catalyst material fabrication team with Boromond has developed a large portfolio of boron-doped diamond electrodes and materials targeting a broad range of markets including biotechnology, environment and health.
The available portfolio is offered to collaborators and project partners to further advance the technology and develop products. The portfolio includes:
Thin film electrodes on substrates, mainly silicon and niobium
Micro electrode arrays
Boron-Doped Diamond Electrode Fabrication Capability
Our Boron-doped diamond electrode (BDD electrode) fabrication capabilities range from diamond growth via post growth fabrication to assembly and material evaluation. BDD films can be applied on a variety of substrate materials and geometries.
Post diamond growth capabilities include polishing, photolithography, etching, metallization and laser-cutting.
Diamond is grown on a variety of substrates including but not limited to certain metals (including expanded metal mesh), quartz, pyrex, silicon and polycrystalline diamond. With the application and product in mind, substrates are carefully evaluated and individually pre-treated for optimized diamond growth and resulting diamond materials. In-house clean room microfabrication processes allow for 4” diameter wafer processing including PVD (metallization) and PE-CVD (SiO2 and Si3N4) thin film deposition, photolithography and plasma etching.
Diamond lapping, polishing and laser cutting expedite the catalyst material fabrication team’s capabilities striving towards a one stop solutions provider for Boron-doped diamond BDD electrode development and prototypes.
Boron-Doped Diamond Electrode Microelectrode Array
BDD microelectrode arrays further decrease the intrinsically low background current of boron doped diamodn electrode (BDD electrode), yielding electrodes capable of ultra-sensitive analyte measurements. These microelectrode arraies can be fabricated on various substrates with custom designs including electrically isolated individually addressable microelectrodes.
With excellent steady state behavior obtained from fabricated microelectrode arraies, electrodes are produced for a variety of applications in electroanalytical chemistry. These applications include traditional cyclic voltammetric analyses, trace heavy metal determination and neurotransmitter sensing using fast-scan cyclic voltammetry, among others. Micro BDD electrodes are fabricated to meet customer demands, whether that be housed as a traditional electrochemical rod-electrode or a microchip for small sample volumes.
Optically Transparent Boron-Doped Diamond Electrode
Combining the advantage of rugged boron-doped diamond electrode material with optical transparency, optically transparent boron-doped diamond BDD electrodes are excellent tools for spectroelectrochemical measurements. Applications range from the general study of redox chemistry (inorganic, organic, biological molecules) to spectroelectrochemical sensing where excellent sensitivity and selectivity can be obtained.
The BDD films are grown on quartz substrates and exhibit a wide range of optical transparency. Measurements can be made below 300 nm, a quality certain optically transparent BDD electrode materials can not achieve. The optical and electronic properties can be altered depending on experimental requirements; a more conductive film will be less optically transparent, while a more optically transparent film will be less conductive. Custom dimensions including microfabrication can be accommodated to fit a specific geometry.
Electrochemical Oxidation with Boron-Doped Diamond Electrode
BDD Boron-doped diamond electrodes have the proper combination of stability, ruggedness, and lifetime for use in electrochemical oxidation applications, especially electrochemical advanced oxidation. These BDD electrodes have shown promise for use in many applications of wastewater treatment, our team noticed that boron-doped diamond BDD electrodes have demonstrated unmatched performances when it comes to treating and degrading complex wastewater with recaltriant organic compounds, therefore we find pathways to utilizing boron-doped diamond electrodes to degrade chemical oxygen demand (COD), total organic carbon (TOC), total ammonia nitrogen (TAN), and total nitrogen, as well as remediation of per- and polyfluoroalkyl substance (PFAS) from contaminated water.
Electrochemical oxidation processes with BDD electrodes can also work to reduce turbidity of wastewater samples. For all electrochemical oxidation applications, customization of BDD electrodes to fit your experimental needs is often required. More information about BDD electrode can be found here.
Additionally, if you are interested in investigating electrochemical oxidation using BDD electrodes for your water treatment application, we can tell if electro-oxidation technology fits your specific water! Just send your water profile to enquiry@boromond.com now.
Way Beyond Boron-Doped Diamond Electrodes
Currently Boromond dedicated to fabricate, supply optimal boron-doped diamond electrode for electrochemical oxidation wastewaster treatment for now, therefore our focus are not about microelectrode and optically transparent BDD electrode.
Meet Your Application Need
We offer boron-doped diamond electrode (BDD electrode) at various sizes, substrates, and shapes, and you can custom your own electrode plate, all you need to do is reaching out to us, we will get back to you as soon as possible.
Electrochemical Oxidation Solution
We are always already to offer premium electrochemical oxidation wastewater products, solutions, services, and support to tackle the challenges with your complex wastewater, all initials start with our boron doped diamond electrode solutions.