A15R-Anion Exchange Membrane For Hydrogen Fuel Cell

Product description

PiperlON 15 micrometers thick mechanically reinforced anion exchange membrane sheets are currently offered in 5x5cm, 10x10cm and 15x15cm sizes.

PiperlON mechanically reinforced AEMs are manufactured from the functionalized poly(aryl piperidinium) resin material and microporous ePTFE reinforcement in order toyield an AEM with excellent mechanical durability and reduced overal swelling or minimal physical dimension change. Mechanically reinforced membranes can sometimes becalled as composite membranes. In terms of mechanical robustness, mechanically reinforced PiperlON AEMs would provide higher performance compared to self-supportingPiperlON AEM counterparts. In terms of ionic conductivity, since part of the mechanical reinforced membranes are composed of inert ePTFE, their ionic conductivities wouldbe slightly lower than the self-supporting PiperlON membranes of the same thickness.

The ionically conductive part of the mechanically reinforced PiperlON AEMs are manufactured from the functionalized poly(aryl piperidinium) polymer. The general chemicalstructure of the poly(aryl piperidinium) resin material is provided below.

AEMs are manufactured solely from the functionalized poly(aryl piperidinium) resin material and there is no mechanical reinforcement in them.Having the entire membrane manufactured from 100% resin material makes this membrane category to have higher ionic conductivity compared to mechanically reinforced AEM counterparts. In terms of mechanical robustness, mechanically reinforced AEMs would provide higher performance compared to AEM counterparts. AEMs are manufactured from the functionalized poly(aryl piperidinium) polymer. The general chemical structure of the poly(aryl piperidinium) resin material is provided below.

Benefits of Self-Supporting PiperlON AEMS:

-Non-reinforced and high anionic conductivity-Excellent chemical stability in caustic and acidic environments (pH range of 1-14)-Ultra-thin membranes with superb performance for various alkaline fuel cell, alkaline electrolyzer, direct ammonia fuel cells, and other relevant electrochemical technologiesl