Membrane electrolysis cell stack electrochemical cell

Description

This stackable MEA cell architecture increases test voltage and power by combining multiple flow-plate units. The channel plates are manufactured from high-purity titanium for superior conductivity and structural integrity, while dedicated heating and temperature-measurement ports support controlled thermal profiles during long-duration tests. Gold-plated copper current collectors are available to minimize interfacial resistance. Standard flow fields and sizes (10×10 to 50×50 mm) can be tailored to your study, including serpentine and parallel patterns for flow optimization. Typical applications include cell/stack prototyping, durability testing, and scale-up studies in CO2 electroreduction, water electrolysis (PEM/AEM), and organic electrosynthesis. The modular design enables rapid assembly/disassembly and straightforward reconfiguration to iterate on channel geometry, compression hardware, or gasket stacks across experiments.

Highlights

• This electrolytic cell can achieve higher voltage and power performance by stacking individual flow plates, it can be used for research-oriented testing of electrochemical processes such as carbon dioxide reduction, water electrolysis and organic electromechanical synthesis.
• The channel plate of the cell body is made of high-purity titanium material, the other different materials, such as high-purity nickel and PEEK, can be customised according to customer needs.
• The runner board adopts hidden channels, it supports series connection, parallel connection, or series + parallel connection combinations.
• The MEA cell plate is equipped with heating and temperature measurement holes for electrochemical testing under temperature control conditions.
• The collector plate is made of gold-plated copper plate, which has strong corrosion resistance.
• The available reactor type: serpentine channel, parallel channel or leaf vein channel, the other customised channel types are also acceptable, such as spiral, mesh, comb, etc.

For further information or to discuss your specific research requirements, please contact us.