Pemion™ hydrocarbon membrane and polymer launches, trying to advance hydrogen fuel cell applications
by CM Staff
Pemion™ is used in large fuel cell applications including heavy-duty transport, automotive, and stationary power, offering chemical and mechanical stability.
VANCOUVER — On Sep. 21, Ionomr Innovations Inc. released its Pemion™ hydrocarbon-based proton exchange membrane and polymer, trying to advance materials for green hydrogen fuel cell applications in the heavy-duty industry.
Pemion™ is used in large fuel cell applications including heavy-duty transport, automotive, and stationary power, offering chemical and mechanical stability, conductivity, durability, and efficiency, all of which reportedly reduce the unit cost of the fuel cell.
Pemion™ is reportedly environmentally friendlier than conventional fluorinated membrane and polymer technology, decreasing reliance on these increasingly regulated materials, and enables simplified and lower-cost recycling for the recovery of expensive catalysts at end of life.
Bill Haberlin, Chief Executive Officer of Ionomr, says, “Governments and regulators across Europe, in the U.S., indeed around the world, are rightly calling for the elimination of toxic, perfluorinated materials. Pemion™ is an ideal replacement for conventional materials, for its environmental benefits and for its superior performance. With our Pemion™ materials now produced at scale, our partners can take their fuel cell and other clean energy technologies to market faster, cleaner, and with better performance. Pemion™ provides a tangible differentiation in the heavy-duty market.”
Dr. Matthias Breitwieser, Chief Technology Officer at ionysis GmbH, said: “We have been collaborating with Ionomr for several years, and after working with their Pemion® materials have now achieved a step-change in the performance of fully hydrocarbon membrane-electrode-assemblies (MEAs), rivaling PFSA solutions. Based on this success, we’ve established our new company, ionysis, to develop high-performance hydrocarbon MEAs as a viable alternative to conventional solutions.”
Pemion™ materials’ gains in performance and reductions in gas crossover reportedly result in a reduction in lifetime hydrogen fuel cell costs. Higher temperatures are possible for higher power stacks with improved cooling and higher efficiency, and the lifetime of the fuel cell is enhanced due to reduced degradation.