pMembrain™ MEAs cover a broad range of applications…
…including fully humidified, low humidity or dry operating conditions. Stable, high levels of performance are consistently delivered for hydrogen-air (pMembrain™ H300) and for hydrogen-oxygen (pMembrain™ H200) conditions.
pMembrain™ R300 reformate MEAs can be operated under full and low humidification conditions. They show stable, long term performance and tolerate various CO concentrations without major performance loss or deactivation of the catalyst layers.
pMembrain™ D200 DMFC MEAs can be adapted to several operation conditions and show stable performance in simple air breathing systems as well as in small scale stack applications.
pMembrain™ E200 electrolysis MEAs are designed for applications where high purity hydrogen is produced. They show excellent durability under a broad temperature and pressure range. With their excellent performance they provide the basis for high system efficiency even at high hydrogen production rates.
SolviCore MEA technology is based upon various membrane types.
For best performance and high reliability, several perfluorinated materials are used.
Porosity, structure and hydrophobicity of gas diffusion media are critical parameters that have a strong influence on MEA performance under given operating conditions. SolviCore applies leading edge gas diffusion media technology based on carbon paper, cloth and other materials as part of pMembrain™ MEA products.
We adapt our MEAs to the technical requirements of our customers with the best suited membrane type, catalyst and GDL material for each application to meet performance and lifetime targets. In close cooperation with our customers, our engineers are able to combine several standardized components to design multi-layer MEAs that fit into the specific stack design and support the chosen sealing technology. The protection rim or the sealing area can be customized to special designs with different hole patterns or gas channels.