About Electrocatalysts:

Iridium (Ir)-Catalyst (Organometallic Catalyst), Platinum‐carbon Catalyst (Pt/C), Platinum–Palladium Bimetal Catalyst (Pt/Pd), Platinum Electrode

Our electrocatalytic materials have been developed through methodical research. They have been evaluated for energy conversion and chemical synthesis. The materials meet defined performance and quality standards.

Product Highlights:

Iridium (Ir)-Catalyst (Organometallic Catalyst): Researchers utilise Iridium (Ir)-Catalysts in electrochemical reactions. These organometallic catalysts were produced under controlled conditions to enable efficient conversion rates. They are used by synthetic chemists and research groups.

Platinum‐carbon Catalyst (Pt/C): Investigate the performance of Platinum‐carbon catalysts (Pt/C) in electrocatalytic applications. Pt/C catalysts have been demonstrated to exhibit high activity and stability in fuel cells, hydrogen production and other electrochemical processes.

Platinum–Palladium Bimetal Catalyst (Pt/Pd): Examine the catalytic performance of Platinum–Palladium bimetal catalysts. These catalysts were formulated to achieve improved catalytic activity and selectivity, and they yield consistent results in various electrochemical applications.

Platinum Electrode: Platinum electrodes are employed in electrochemical systems. They have been manufactured with precision and are used in electroanalytical procedures and sensor development.

Electrocatalyst Applications:

Electrocatalysts are applied across several industries and research fields:

Energy Conversion: Fuel cells and electrolysers employ electrocatalysts for energy conversion. This application has led to measurable improvements in conversion efficiency.

Chemical Synthesis: Electrochemical conversions use these catalysts for sustainable chemical synthesis. Their performance has been verified by reproducible laboratory results.

Electroanalytical Techniques: Platinum electrodes are used in electrochemical analyses for accurate and sensitive measurements.

Environmental Remediation: Bimetal catalysts are applied in pollutant degradation and wastewater treatment. Their use contributes to effective environmental management.

Main Features of the Electrocatalyst:

High Activity: The electrocatalytic materials are designed to provide high catalytic activity, thereby enhancing reaction efficiency.

Precision Engineering: Each catalyst and electrode is manufactured according to precise procedures to ensure uniform performance.

Customised Properties: Catalysts are formulated for specific electrochemical applications to meet defined operational criteria.

Sustainable Solutions: These electrocatalysts contribute to environmentally sustainable technologies, as confirmed by systematic testing.

Quality Assurance: The materials adhere to rigorous quality and performance standards verified by reproducible experimental results.

Enhance Your Projects:

Our commitment to scientific accuracy, precision and technical integrity positions us as a reputable supplier of electrocatalysts. Whether you are a researcher, engineer or practitioner, our products facilitate measurable advancements in your projects.