Continuous Flow Electrochemical Reaction Testing Platform is a reaction testing system designed to evaluate the electrocatalytic performance of catalysts. In this system, catalysts are loaded onto electrodes, and under the flow of electrolytes in an electrolytic cell, reactions occur between the catalyst and the electrolyte under the influence of electricity. The resulting products are collected and can be quickly analyzed.
Continuous Flow Electrochemical Reaction Testing Platform is widely used in the field of electrocatalysis, including the evaluation of hydrogen/oxygen production activity from water splitting, CO₂ reduction, methanol aqueous solution electrolysis, degradation of liquid pollutants, and membrane electrode performance analysis. Additionally, the system can be integrated with a light source and an electrolytic cell with light windows for photoelectrocatalytic reactions, further expanding its applications.
The system is highly flexible and supports different types of electrolytic cells based on experimental needs, such as single (or double) chamber two-electrode electrolytic cells, solid electrolyte testing cells, and dual-light-window electrolytic cells. Borfilei Technology also offers personalized customization services to meet the requirements of different experimental environments and research needs (Consultation Hotline: 400-1161-365).
• High-Efficiency and Energy-Saving Design
The system is compatible with an anode-cathode chamber electrolytic cell, with close electrode spacing to significantly enhance mass transfer efficiency, reduce cell voltage, and lower power consumption, positively impacting experimental outcomes and costs.
• Integrated Product Processing
Provides a system for product separation, drying, and measurement with a reserved collection port. Users can collect and analyze products for subsequent reactions, facilitating easy determination of reaction outcomes.
• Intelligent Control
The system allows monitoring and control of electrolyte temperature, flow rate, and reaction pressure, offering quick solutions for experimental condition screening, accelerating research and development, and supporting expanded application possibilities.
• Extensive Application Expansion
The system offers calculations such as power consumption and Faradaic efficiency, enabling analysts to easily obtain precise experimental data.
▷ Evaluation of hydrogen and oxygen production activity in H₂O splitting
▷ CO₂ reduction
▷ Methanol aqueous solution electrolysis
▷ Flow-phase photoelectrocatalytic reaction studies
▷ MEA membrane electrode performance testing
▷ Catalytic degradation of liquid pollutants
