A thermally stable diamine compound of formula (I′) is proposed as well as polymers, copolymers, polyamic acids, polyamic acid esters, or polyimides based on such compound. Also, a process of preparing orientation layers for liquid crystals including preparing orientation layers for liquid crystals from thermally stable alignment materials comprising diamine compounds of formula (I′).

A thermally stable diamine compound of formula (I′) is proposed as well as polymers, copolymers, polyamic acids, polyamic acid esters, or polyimides based on such compound. Also, a process of preparing orientation layers for liquid crystals including preparing orientation layers for liquid crystals from thermally stable alignment materials comprising diamine compounds of formula (I′).

Novel polyketanil-based compositions for use as a laser-releasable composition for temporary bonding and laser debonding processes are provided. The inventive compositions can be debonded using various UV lasers, at wavelengths from about 300 nm to about 360 nm, leaving behind little to no debris. The layers formed from these compositions possess good thermal stabilities and are resistant to common solvents used in semiconductor processing. The compositions can also be used as build-up layers for redistribution layer formation.

Fluoropolymers containing one or more azide group wherein the azide group is not a sulfonyl-azide group and processes of preparing them.

Fluoropolymers containing one or more azide group wherein the azide group is not a sulfonyl-azide group and processes of preparing them.

The present invention concerns the field of polymer chemistry and relates to water-insoluble anion exchange materials as they are used, for example, for anion exchange membranes or as anion exchange resins.

The object of the invention is the specification of water-insoluble anion exchange materials which exhibit improved insolubility in water.

The object is attained by water-insoluble anion exchange materials, at least composed of linearly polymerized and/or branched and/or crosslinked anion exchange groups C, which are part of the structural units according to at least one of the general formulas I to VIII.

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Provided are an all solid state secondary battery having a positive electrode active material layer, an inorganic solid electrolyte layer, and a negative electrode active material layer in this order, in which at least one layer of the positive electrode active material layer, the inorganic solid electrolyte layer, or the negative electrode active material layer includes an electrolytic polymerizable compound and an inorganic solid electrolyte, in which the electrolytic polymerizable compound is an electrolytic polymerizable compound having a molecular weight of less than 1,000 which is represented by any one of Formulae (1) to (5) below, and the inorganic solid electrolyte contains a metal belonging to Group I or II of the periodic table and has an ion conductivity of the metal being contained, an electrode sheet for a battery, and method for manufacturing an electrode sheet for a battery and an all solid state secondary battery.

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Reference signals each independently represent a specific atom, substituent, or linking group.

A method of providing odor control to a natural fiber or a polymeric containing material and an odor control treated article are provided. The method comprises applying an odor adsorbing solution to the natural fiber or the polymeric containing material, wherein the odor adsorbing solution comprises an oxazoline homopolymer or an extended or a modified polymer based on an oxazoline homopolymer.

An anode composite material includes an anode active material and a polymer composited with the anode active material. The polymer is obtained by polymerizing a maleimide type monomer with an organic diamine type compound. The maleimide type monomer is a maleimide monomer, a bismaleimide monomer, a multimaleimide monomer, a maleimide type derivative monomer, or combinations thereof. A method for forming the anode composite material and a lithium ion battery are also disclosed.

The present invention relates generally to substrates for making polymers and methods for making polymers. The present invention also relates generally to polymers and devices comprising the same.