The present invention relates to silicone hydrogels exhibiting desired combinations of physical and mechanical properties, formed from a reactive monomer mixture comprising at least one N-alkyl methacrylamide, and at least one silicone-containing component. These silicone hydrogels may also contain hydrophilic components, crosslinking agents and toughening monomers. These silicone hydrogels are useful in preparing biomedical devices, ophthalmic lenses, and contact lenses.

Cross-linked polyvinyl polymers comprising charged groups and methods of making are disclosed. The polymers are effective and durable adsorbent of dyes from aqueous solutions. Also, a method of removal of dyes from contaminated water is disclosed.

Cross-linked polyvinyl polymers comprising charged groups and methods of making are disclosed. The polymers are effective and durable adsorbent of dyes from aqueous solutions. Also, a method of removal of dyes from contaminated water is disclosed.

A process for producing a composition comprising a crosslinked hydrogel is proposed. The process comprises providing a container body (2), wherein the container body (2) has a body inner wall (21) and a body outer wall (22), wherein the body inner (21) wall is configured to be tempered, filling of a fluid (7) comprising at least a mixture of a polymer and water into the container body (2), and agitating the fluid. For crosslinking of the fluid (7), a container insert (3) is provided, the container insert (3) having an insert outer wall (32) which is configured to be tempered and a container assembly (1) is formed by inserting the container insert (3) into the container body (2) so that the insert outer wall (32) of the container insert (3) and the body inner wall (21) of the container body (2) are separated by a gap (9) of constant width and define a volume (6) for receiving the fluid (7). Crosslinking of the fluid (7) is then performed while tempering the insert outer wall (32) and the body inner wall (21) to form a crosslinked hydrogel.

A process for producing a composition comprising a crosslinked hydrogel is proposed. The process comprises providing a container body (2), wherein the container body (2) has a body inner wall (21) and a body outer wall (22), wherein the body inner (21) wall is configured to be tempered, filling of a fluid (7) comprising at least a mixture of a polymer and water into the container body (2), and agitating the fluid. For crosslinking of the fluid (7), a container insert (3) is provided, the container insert (3) having an insert outer wall (32) which is configured to be tempered and a container assembly (1) is formed by inserting the container insert (3) into the container body (2) so that the insert outer wall (32) of the container insert (3) and the body inner wall (21) of the container body (2) are separated by a gap (9) of constant width and define a volume (6) for receiving the fluid (7). Crosslinking of the fluid (7) is then performed while tempering the insert outer wall (32) and the body inner wall (21) to form a crosslinked hydrogel.

[PROBLEMS] To easily provide gels and porous bodies having high strength.

[SOLVING MEANS] A method of producing a porous body according to the present invention is characterized by having a first step of dissolving fibrous polymers each having a reactive functional group in a solution, a second step of freezing the solution in which the fibrous polymers are dissolved, and a third step of cross-linking fibrous polymers to each other by adding a predetermined amount of cross-linking agent to the frozen solution.

[PROBLEMS] To easily provide gels and porous bodies having high strength.

[SOLVING MEANS] A method of producing a porous body according to the present invention is characterized by having a first step of dissolving fibrous polymers each having a reactive functional group in a solution, a second step of freezing the solution in which the fibrous polymers are dissolved, and a third step of cross-linking fibrous polymers to each other by adding a predetermined amount of cross-linking agent to the frozen solution.

The present invention provides a polyethylene glycol derivative comprising a repeat unit having the structure of Formula (I) and a terminal group having the structure of Formula (II). The polyethylene glycol derivative provided by the present invention has good biocompatibility, due to the repeat unit having the structure of Formula (I); and can react with various groups such as amino, (acyl)hydrazino, and aminooxy with a fast reaction rate under mild reaction conditions, due to the o-phthalaldehyde terminal group having the structure of Formula (II). The polyethylene glycol derivative provided by the present invention is mixed with polyethylene glycol having an amino-containing terminal group in an aqueous medium, to rapidly form a chemically cross-linked hydrogel material. The hydrogel material has mild preparation conditions, fast gel-forming speed, high mechanical strength, and good stability. This polyethylene glycol hydrogel can be applied as drug sustained-release carrier, tissue engineering scaffold, etc. in the field of biomedical materials.

The present invention provides a polyethylene glycol derivative comprising a repeat unit having the structure of Formula (I) and a terminal group having the structure of Formula (II). The polyethylene glycol derivative provided by the present invention has good biocompatibility, due to the repeat unit having the structure of Formula (I); and can react with various groups such as amino, (acyl)hydrazino, and aminooxy with a fast reaction rate under mild reaction conditions, due to the o-phthalaldehyde terminal group having the structure of Formula (II). The polyethylene glycol derivative provided by the present invention is mixed with polyethylene glycol having an amino-containing terminal group in an aqueous medium, to rapidly form a chemically cross-linked hydrogel material. The hydrogel material has mild preparation conditions, fast gel-forming speed, high mechanical strength, and good stability. This polyethylene glycol hydrogel can be applied as drug sustained-release carrier, tissue engineering scaffold, etc. in the field of biomedical materials.

One aspect of the present invention relates to a coated resin particle including: a water-absorbent resin particle; and a coating layer that coats at least a part of a surface of the water-absorbent resin particle, in which the coating layer contains a water-soluble component in which a solubility in 100 g of water is in a range of 1.0 g or more and 150 g or less at 25° C.