The present disclosure provides an ink fluid set containing an aqueous pretreatment composition and an aqueous inkjet ink. This ink fluid set is particularly suitable for printing on offset coated media.

The present disclosure provides an ink fluid set containing an aqueous pretreatment composition and an aqueous inkjet ink. This ink fluid set is particularly suitable for printing on offset coated media.

An ink jet composition according to the present disclosure contains a flameproofing agent and resin particles. The resin particles are preferably urethanic resin particles. It is preferable that a urethanic resin making up the urethanic resin particles is a urethanic resin containing a crosslinking group and the crosslinking group is one or more selected from the group consisting of a blocked isocyanate group and a silanol group. The urethanic resin making up the urethanic resin particles preferably has a polycarbonate skeleton.

An ink jet composition according to the present disclosure contains a flameproofing agent and resin particles. The resin particles are preferably urethanic resin particles. It is preferable that a urethanic resin making up the urethanic resin particles is a urethanic resin containing a crosslinking group and the crosslinking group is one or more selected from the group consisting of a blocked isocyanate group and a silanol group. The urethanic resin making up the urethanic resin particles preferably has a polycarbonate skeleton.

An ink composition includes an acrylic resin including a polymerization product of a first monomer having a hydroxyl group, a second monomer having an epoxy group, a third monomer having an acrylate group, and a fourth monomer having a substituted or unsubstituted phenyl group, a first curing agent having an isocyanate group, and a second curing agent having an amine group. Durability and abrasion resistance of a window may be improved.

An ink composition includes an acrylic resin including a polymerization product of a first monomer having a hydroxyl group, a second monomer having an epoxy group, a third monomer having an acrylate group, and a fourth monomer having a substituted or unsubstituted phenyl group, a first curing agent having an isocyanate group, and a second curing agent having an amine group. Durability and abrasion resistance of a window may be improved.

A method of preparing a metal nanoparticle can include depositing an ink on a substrate using nanolithography to form a polymer reactor, wherein the ink comprises at least one metalloporphyrin functionalized polymer comprising a metal ion, porphyrin, and a polyethylene oxide polymer; and thermally annealing the polymer nanoreactor under conditions sufficient to form the nanoparticle. The thermal annealing can include a first stage that includes annealing the polymer nanoreactor at a temperature of about 100° C. to about 350° C. for a time sufficient to aggregate the metal ions in the polymer reactor, and a second stage that includes annealing the aggregated polymer nanoreactor at a temperature of about 500° C. to about 600° C. for a time sufficient to reduce the metal ion and decompose a polymer component of the polymer nanoreactor to thereby form the metal nanoparticle.

A method of preparing a metal nanoparticle can include depositing an ink on a substrate using nanolithography to form a polymer reactor, wherein the ink comprises at least one metalloporphyrin functionalized polymer comprising a metal ion, porphyrin, and a polyethylene oxide polymer; and thermally annealing the polymer nanoreactor under conditions sufficient to form the nanoparticle. The thermal annealing can include a first stage that includes annealing the polymer nanoreactor at a temperature of about 100° C. to about 350° C. for a time sufficient to aggregate the metal ions in the polymer reactor, and a second stage that includes annealing the aggregated polymer nanoreactor at a temperature of about 500° C. to about 600° C. for a time sufficient to reduce the metal ion and decompose a polymer component of the polymer nanoreactor to thereby form the metal nanoparticle.

A pretreatment liquid for inkjet recording contains a photobase generator that produces an organic amine compound through light exposure. An inkjet recording apparatus forms an image on an image formation area of a recording medium. The inkjet recording apparatus includes a pretreatment section, a light exposure section, and a recording head. The pretreatment section ejects the pretreatment liquid for inkjet recording toward the image formation area of the recording medium. The light exposure section performs light exposure on the image formation area of the recording medium to which the pretreatment liquid for inkjet recording has been ejected. The recording head ejects an ink toward the image formation area of the recording medium subjected to the light exposure to form the image.

Inkjet printing apparatus including: ink accommodating unit storing ink; ejection head configured to eject the ink to form print layer; and heating unit configured to heat print target, wherein the ink is clear ink including resin and water, dry film of the clear ink has glass transition temperature of 50° C. or more, the inkjet printing apparatus has first printing mode and second printing mode, and the heating unit is configured to heat the print target so that expression: T.sub.matte>T.sub.gloss is satisfied, where the T.sub.matte is temperature (° C.) of the print target in printing region printed in the first printing mode obtained when the clear ink is deposited on the print target, and the T.sub.gloss is temperature (° C.) of the print target in printing region printed in the second printing mode obtained when the clear ink is deposited on the print target.