Disclosed herein in various embodiments are aryl-ether free polyaromatic polymers based on random copolymer architecture with two, three, or more aromatic ring components and methods of preparing those polymers. The polymers of the present disclosure can be used as ion exchange membranes, e.g., as anion exchange membranes, and ionomer binders in alkaline electrochemical devices.

Disclosed herein in various embodiments are aryl-ether free polyaromatic polymers based on random copolymer architecture with two, three, or more aromatic ring components and methods of preparing those polymers. The polymers of the present disclosure can be used as ion exchange membranes, e.g., as anion exchange membranes, and ionomer binders in alkaline electrochemical devices.

This invention relates to compositions suitable for use as coatings. More particularly, this invention relates to compositions suitable for use as industrial coatings such as anti-corrosion coatings, protective coatings and adhesive coatings. This invention relates to compositions and methods for coating substrates. More particularly, the invention relates to coating compositions and methods for coating substrates, where the coating compositions comprise polymerized olefins and cyclic olefins, via different chemical transformations. The invention also relates to methods of applying the coatings to the substrates.

Provided are an anion exchange resin being capable of producing an electrolyte membrane, a binder for forming an electrode catalyst layer, and a battery electrode catalyst layer, which has excellent electrical properties (anion conductivity) and chemical properties (gas permeability and water uptake property), an electrolyte membrane and a binder for forming an electrode catalyst layer formed from the anion exchange resin, and a battery electrode catalyst layer formed from the binder for forming an electrode catalyst layer.

For example, used is an anion exchange resin in which a hydrophobic unit being composed of divalent hydrophobic groups including a bisphenol residue having an alicyclic structure, which are repeated via carbon-carbon bond, a hydrophobic unit being composed of hydrophobic groups of a plurality of aromatic rings bonded to each other via a divalent fluorine-containing hydrocarbon group, which are repeated via carbon-carbon bond, and a hydrophilic unit having a fluorene ring bonded to an anion exchange group-containing group are bonded via carbon-carbon bond.