Provided is a composition with which a pattern having excellent adhesiveness can be formed. In addition, provided are a film, an infrared transmitting filter, a solid image pickup element, an image display device, and an infrared sensor. This composition includes a coloring material, a resin, a polymerizable compound, and a photopolymerization initiator. The polymerizable compound includes a compound A having an alkyleneoxy group and three ethylenically unsaturated groups, and a ratio A/B of a minimum value A of an absorbance of the composition in a wavelength range of 400 to 750 nm to a maximum value B of an absorbance of the composition in a wavelength range of 1100 to 1300 nm is 4.5 or higher.

A method for producing a click-active Janus particle includes combining seed particles with a monomer emulsion to obtain monomer-swollen seed particles; and polymerizing the monomer-swollen seed particles to obtain click-active Janus particles. A method for functionalizing a click-active Janus particle includes combining seed particles with a monomer emulsion to obtain monomer-swollen seed particles; polymerizing the monomer-swollen seed particles to obtain click-active Janus particles; and functionalizing the click-active Janus particles using one or more click chemistry reactions.

A method for producing a click-active Janus particle includes combining seed particles with a monomer emulsion to obtain monomer-swollen seed particles; and polymerizing the monomer-swollen seed particles to obtain click-active Janus particles. A method for functionalizing a click-active Janus particle includes combining seed particles with a monomer emulsion to obtain monomer-swollen seed particles; polymerizing the monomer-swollen seed particles to obtain click-active Janus particles; and functionalizing the click-active Janus particles using one or more click chemistry reactions.

A film containing: a propenyl group-containing resin (A) including, at an end of a molecule, a constituent unit represented by the following formula (1); a radical polymerizable resin or compound (B) other than the propenyl group-containing resin (A); and a curing accelerator (C), wherein the radical polymerizable resin or compound (B) includes at least one selected from the group consisting of a maleimide group and a citraconimide group. In the formula (1), —* represents a bonding hand.

A film containing: a propenyl group-containing resin (A) including, at an end of a molecule, a constituent unit represented by the following formula (1); a radical polymerizable resin or compound (B) other than the propenyl group-containing resin (A); and a curing accelerator (C), wherein the radical polymerizable resin or compound (B) includes at least one selected from the group consisting of a maleimide group and a citraconimide group. In the formula (1), —* represents a bonding hand.

An object of the present invention is to provide a colored curable resin composition for forming an optical filter in which the occurrence of foreign matter is reduced. The present invention relates to a colored curable resin composition containing a colorant, a resin, a polymerizable compound, and a polymerization initiator, wherein the colorant is a colorant containing a compound represented by formula (I) or formula (II).

##STR00001##

A composition of matter including a mother solution; an organic ester; an additive agent and deionized water. The mother solution includes a rare earth compound or a metal compound, an organic acid, an organic amine, and deionized water. Also provided is a method of preparing the composition of matter. The method includes: 1) heating deionized water to a temperature of 50-60° C.; adding an organic acid to the deionized water, allowing to dissolve, followed by addition of a rare earth compound or a metal compound, 2-4 hours later, adding an organic amine, heating to a temperature of 70-80° C. and holding; cooling and filtering to yield a mother solution; 2) mixing the mother solution, deionized water, and a catalyst; vacuumizing a resulting mixture, heating the mixture to a temperature of 95-125° C. and holding, following by addition of a polymerization inhibitor and an organic ester; 2-4 hours later, cooling, standing, separating.

A composition of matter including a mother solution; an organic ester; an additive agent and deionized water. The mother solution includes a rare earth compound or a metal compound, an organic acid, an organic amine, and deionized water. Also provided is a method of preparing the composition of matter. The method includes: 1) heating deionized water to a temperature of 50-60° C.; adding an organic acid to the deionized water, allowing to dissolve, followed by addition of a rare earth compound or a metal compound, 2-4 hours later, adding an organic amine, heating to a temperature of 70-80° C. and holding; cooling and filtering to yield a mother solution; 2) mixing the mother solution, deionized water, and a catalyst; vacuumizing a resulting mixture, heating the mixture to a temperature of 95-125° C. and holding, following by addition of a polymerization inhibitor and an organic ester; 2-4 hours later, cooling, standing, separating.

A composition of matter including a mother solution; an organic ester; an additive agent and deionized water. The mother solution includes a rare earth compound or a metal compound, an organic acid, an organic amine, and deionized water. Also provided is a method of preparing the composition of matter. The method includes: 1) heating deionized water to a temperature of 50-60° C.; adding an organic acid to the deionized water, allowing to dissolve, followed by addition of a rare earth compound or a metal compound, 2-4 hours later, adding an organic amine, heating to a temperature of 70-80° C. and holding; cooling and filtering to yield a mother solution; 2) mixing the mother solution, deionized water, and a catalyst; vacuumizing a resulting mixture, heating the mixture to a temperature of 95-125° C. and holding, following by addition of a polymerization inhibitor and an organic ester; 2-4 hours later, cooling, standing, separating.

This invention relates to a method for preparing a structured water-soluble polymer having a weight average molecular weight greater than 1 million Daltons and a Huggins Coefficient K.sub.H greater than 0.4, the method comprising the following successive steps: a) Preparing a polymer, in the form of a gel, by free-radical polymerization in aqueous solution at an initiation temperature between −20° C. and +50° C. of at least one water-soluble monounsaturated ethylenic monomer, the total weight concentration of monomer(s) in relation to the polymerization charge being between 10 and 60%; b) Granulating the resulting polymer gel; c) Drying the polymer gel to obtain a polymer in powder form; d) Grinding and sifting the powder; at least 10% by weight of water-soluble polymer, based on the total weight of the water-soluble monounsaturated ethylenic monomer or monounsaturated ethylenic monomers used in step a), being added during the polymerization step a) and optionally during the granulation step b), the water-soluble polymer being structured and added as a water-in-oil inverse emulsion or dispersion in oil.