A polymer substrate, such as a polymer particle, is formed from a carboxyl functional monomer. In an example, the carboxyl functional monomer has a protection group in place of the OH of the carboxyl group. Once the monomer is polymerized, such a protection group can be removed, providing a polymer network with carboxyl functional sites. Such sites can be used to attach other functionality to the polymer substrate.

A polymer substrate, such as a polymer particle, is formed from a carboxyl functional monomer. In an example, the carboxyl functional monomer has a protection group in place of the OH of the carboxyl group. Once the monomer is polymerized, such a protection group can be removed, providing a polymer network with carboxyl functional sites. Such sites can be used to attach other functionality to the polymer substrate.

The present invention concerns a two-part curable composition comprising: ?a first part (component A) comprising: at least 51% by weight based on the total weight of the first part, of one or more cyanoacrylate monomer(s); a transition metal complex; and an antioxidant; ?a second part (component B) comprising: a per-compound; at least one Michael acceptor M selected from the group consisting of (meth)acrylic monomers, (meth)acrylic functionalized oligomers, (meth)acrylic functionalized resins, and mixtures thereof; provided that the composition comprises (in the first part and/or in the second part) at least one compound C comprising a radical -EWG.sub.1-CH.sub.2-EWG.sub.2- wherein EWG.sub.2 and EWG.sub.1 are independently of each other an electron withdrawing group.

The present invention concerns a two-part curable composition comprising: ?a first part (component A) comprising: at least 51% by weight based on the total weight of the first part, of one or more cyanoacrylate monomer(s); a transition metal complex; and an antioxidant; ?a second part (component B) comprising: a per-compound; at least one Michael acceptor M selected from the group consisting of (meth)acrylic monomers, (meth)acrylic functionalized oligomers, (meth)acrylic functionalized resins, and mixtures thereof; provided that the composition comprises (in the first part and/or in the second part) at least one compound C comprising a radical -EWG.sub.1-CH.sub.2-EWG.sub.2- wherein EWG.sub.2 and EWG.sub.1 are independently of each other an electron withdrawing group.

The present invention relates to a method of preparing an ASA graft copolymer, a method of preparing a thermoplastic ASA resin composition including the same, and a method of preparing an ASA molded part, and more particularly, to a method of preparing a multilayered ASA graft copolymer including a step of preparing seeds, cores, and shells. According to the method, since a multifunctional carboxylic acid having 20 or more carbon atoms or a salt thereof is introduced as an emulsifier, the content of the emulsifier remaining in a resin may be reduced, thereby providing an ASA resin having excellent thermal stability and appearance characteristics while the inherent physical properties thereof, such as impact resistance and weather resistance, are maintained.

The present invention relates to a method of preparing an ASA graft copolymer, a method of preparing a thermoplastic ASA resin composition including the same, and a method of preparing an ASA molded part, and more particularly, to a method of preparing a multilayered ASA graft copolymer including a step of preparing seeds, cores, and shells. According to the method, since a multifunctional carboxylic acid having 20 or more carbon atoms or a salt thereof is introduced as an emulsifier, the content of the emulsifier remaining in a resin may be reduced, thereby providing an ASA resin having excellent thermal stability and appearance characteristics while the inherent physical properties thereof, such as impact resistance and weather resistance, are maintained.

A flexible display device includes a hole transport layer, a light emitting layer, an electron transport layer arranged between a first electrode layer and a second electrode layer. The hole transport layer and the electron transport layer each contain a polyacrylamide comprising a guest part and/or a host part which interacts with the guest part. The host part may be selected from the group consisting of an -cyclodextrinyl group, a -cyclodextrinyl group, and a -cyclodextrinyl group, and the guest part may be selected from the group consisting of an n-butyl (ester) group, an n-hexyl (ester) group, an n-dodecyl (ester) group, an n-dodecyl (amide) group, an adamantyl group, a cyclohexyl (ester) group, and a cyclododecyl (amide) group, which can interact with the selected host part.

A flexible display device includes a hole transport layer, a light emitting layer, an electron transport layer arranged between a first electrode layer and a second electrode layer. The hole transport layer and the electron transport layer each contain a polyacrylamide comprising a guest part and/or a host part which interacts with the guest part. The host part may be selected from the group consisting of an -cyclodextrinyl group, a -cyclodextrinyl group, and a -cyclodextrinyl group, and the guest part may be selected from the group consisting of an n-butyl (ester) group, an n-hexyl (ester) group, an n-dodecyl (ester) group, an n-dodecyl (amide) group, an adamantyl group, a cyclohexyl (ester) group, and a cyclododecyl (amide) group, which can interact with the selected host part.

Described herein are water-soluble UV-absorbing vinylic monomers and their uses in preparing UV-absorbing contact lenses capable of blocking ultra-violet (UV) radiation and optionally (but preferably) violet radiation with wavelengths from 380 nm to 440 nm, thereby protecting eyes to some extent from damages caused by UV radiation and potentially from violet radiation. This invention also provides a UV-absorbing contact lens.

Described herein are water-soluble UV-absorbing vinylic monomers and their uses in preparing UV-absorbing contact lenses capable of blocking ultra-violet (UV) radiation and optionally (but preferably) violet radiation with wavelengths from 380 nm to 440 nm, thereby protecting eyes to some extent from damages caused by UV radiation and potentially from violet radiation. This invention also provides a UV-absorbing contact lens.