Materials and methods for conducting an atom transfer radical polymerization in the presence of oxygen by interlocking enzymatic activities are provided herein.

The present invention is directed to a curable and electrochemically debondable adhesive composition comprising, based on the weight of the composition: from 40 to 99 wt. % of a) at least one ethylenically unsaturated non-ionic monomer; from 0.9 to 50 wt. % of b) at least one polymerizable ionic compound, wherein said polymerizable ionic compound comprises: b1) at least one compound in accordance with general formula IV; and/or b2) at least one compound in accordance with general formula V; and, from 0.1 to 10 wt. % of c) at least one free radical initiator.

##STR00001##

The present invention is directed to a curable and electrochemically debondable adhesive composition comprising, based on the weight of the composition: from 40 to 99 wt. % of a) at least one ethylenically unsaturated non-ionic monomer; from 0.9 to 50 wt. % of b) at least one polymerizable ionic compound, wherein said polymerizable ionic compound comprises: b1) at least one compound in accordance with general formula IV; and/or b2) at least one compound in accordance with general formula V; and, from 0.1 to 10 wt. % of c) at least one free radical initiator.

##STR00001##

An elastic material is provided having an elongation greater than 150% as measured according to ASTM D638-02a, a resiliency greater than 12% as measured according to ASTM D2632-01 (reapproved 2008), and a Shore A hardness of at least 10 as measured by ASTM D2240-15e1. The elastic material is an energy-cured reaction product of a curable composition that is a liquid at 25° C. The curable composition includes at least a) relatively high molecular weight (meth)acrylate-functionalized oligomer having no more than two (meth)acrylate functional groups per molecule on average; b) at least one mono(meth)acrylate-functionalized monomer having a molecular weight of less than 500 Daltons and a single (meth)acrylate functional group per molecule and/or an ethylenically unsaturated nitrogen-containing monomer; and c) at least one multi(meth)acrylate-functionalized monomer having a molecular weight of less than 1000 Daltons and at least two (meth)acrylate functional groups per molecule.

An elastic material is provided having an elongation greater than 150% as measured according to ASTM D638-02a, a resiliency greater than 12% as measured according to ASTM D2632-01 (reapproved 2008), and a Shore A hardness of at least 10 as measured by ASTM D2240-15e1. The elastic material is an energy-cured reaction product of a curable composition that is a liquid at 25° C. The curable composition includes at least a) relatively high molecular weight (meth)acrylate-functionalized oligomer having no more than two (meth)acrylate functional groups per molecule on average; b) at least one mono(meth)acrylate-functionalized monomer having a molecular weight of less than 500 Daltons and a single (meth)acrylate functional group per molecule and/or an ethylenically unsaturated nitrogen-containing monomer; and c) at least one multi(meth)acrylate-functionalized monomer having a molecular weight of less than 1000 Daltons and at least two (meth)acrylate functional groups per molecule.

This invention relates to a resin composition comprising at least one of a first monomeric or oligomeric component (A), at least one of a second monomeric or oligomeric component (B) and a photoinitiator. This invention also relates to a method of preparing a polymer from the resin composition, a polymer prepared from the resin composition, a method of forming a 3-dimensional printed article, and a kit comprising at least one of a first monomeric or oligomeric component (A), at least one of a second monomeric or oligomeric component (B) and a photoinitiator.

This invention relates to a resin composition comprising at least one of a first monomeric or oligomeric component (A), at least one of a second monomeric or oligomeric component (B) and a photoinitiator. This invention also relates to a method of preparing a polymer from the resin composition, a polymer prepared from the resin composition, a method of forming a 3-dimensional printed article, and a kit comprising at least one of a first monomeric or oligomeric component (A), at least one of a second monomeric or oligomeric component (B) and a photoinitiator.

Described herein are superabsorbent polymers that are made of copolymers of charged monomer and neutral monomers, where the neutral monomers are alkyl or aryl end-capped neutral and hydrophilic monomers that lack free hydroxyl groups and have a water solubility of at least 200 mg/mL. The copolymer-based superabsorbent polymers have significantly improved absorbency under load. The compositions and methods described herein are useful in a variety of absorbent products.

Described herein are superabsorbent polymers that are made of copolymers of charged monomer and neutral monomers, where the neutral monomers are alkyl or aryl end-capped neutral and hydrophilic monomers that lack free hydroxyl groups and have a water solubility of at least 200 mg/mL. The copolymer-based superabsorbent polymers have significantly improved absorbency under load. The compositions and methods described herein are useful in a variety of absorbent products.

The invention provides a living radical polymerization method using a zinc phthalocyanine dye as a near-infrared photocatalyst, including subjecting a free radical polymerizable monomer to a near-infrared light-controlled polymerization reaction, in the presence of a chain transfer agent, a cocatalyst and a zinc phthalocyanine dye containing a carbon-carbon double bond, in a solvent at 0-30° C. under the air atmosphere, to obtain a living radical polymerization product. The free radical polymerizable monomer is an acrylate monomer, a methacrylate monomer, an acrylamide monomer or a methacrylamide monomer; the chain transfer agent includes a thiocarbonate; and the cocatalyst includes an organic amine with or without a carbon-carbon double bond. A near-infrared light-responsive functional zinc phthalocyanine dye is used as a near-infrared photocatalyst for the polymerization reaction, and after the polymerization is completed, the polymerizable zinc phthalocyanine dye remains on the polymer chain by polymerization, thereby realizing the cyclic utilization of the near-infrared photocatalyst.