An anion exchange membrane (AEM) is a semipermeable membrane that conducts anions (negatively charged ions) while blocking gases like hydrogen and oxygen. It is made from a polymer backbone with positively charged functional groups that allow for the selective transport of anions like hydroxide ions (OH−cap O cap H raised to the negative power −). AEMs are used in applications like water electrolysis, fuel cells, and water treatment because they enable the production of hydrogen and can function in alkaline environments.
SPECIFICATIONS
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Properties of PFSA membranes.
GKPEM-301 Series (Hydrogen Fuel Cell)
EPTFE (expanded polytetrafluoroethylene) microporous reinforcing material was added to the traditional proton exchange membrane. which has the characteristics of high strength. high conductivity and low ion permeability.
GKPEM-11 Series (Vanadium Flow Batteries)
The strength, moisture retention by and introducing vanadium special resistance nano-graphene of ion exchangematerials into the membranes tape were casting improved process.
GKPEM-41 Series (Electrolysis)
Unique tape casting process with appropriate molecular weight and ion exchange capacity of pernuorosulfonic acid resin is used to form homogeneous membrane with uniform thickness. It is widely used in electrolytic chlorine dioxide generator, etching solution recovery copper, gold salt preparation. amino acid refining, caustic soda preparation. electrodialysis and other electrolytic industries.
GKPEM-51 Series (Water Treatment)
Using high strength PTFE mesh as supporting layer, with perfluorosulfonic acid resin with the most suitable molecular weight and ion exchange capacity, it has super chemical resistance and durability, and is widely used in the treatment of high salt wastewater, electrodialysis and othe water treatment fields.
GKPEM-W Series (Hydrogen-Rich Water Cup Membrane)
Perfluorosulfonic acid resin with high purity, the most suitable molecular weight and ion exchange capacity and unique additive technology are used to reduce the impact on the taste and prolong the service life of the membrane.