There is provided a method of forming a seam between a first region of polymer film and a second region of polymer film. The method comprises pretreating a first region of a polymer film by applying a pretreatment composition comprising solid lubricant particles onto the first region of polymer film; priming the pretreated polymer film with a primer; electrophotographically printing an electrophotographic ink composition onto the primed polymer film to form a printed image; and solvent-bonding the pretreated first region of polymer film to the second region of polymer film to form a seam.

There is provided a method of forming a seam between a first region of polymer film and a second region of polymer film. The method comprises pretreating a first region of a polymer film by applying a pretreatment composition comprising solid lubricant particles onto the first region of polymer film; priming the pretreated polymer film with a primer; electrophotographically printing an electrophotographic ink composition onto the primed polymer film to form a printed image; and solvent-bonding the pretreated first region of polymer film to the second region of polymer film to form a seam.

Herein are describes liquid electrophotographic ink compositions and methods for producing liquid electrophotographic ink composition. The liquid electrophotographic ink compositions may be producing using a method comprising: grinding a resin and a pigment to form a paste; reacting an aluminium C.sub.12-24 carboxylate and a molecule having a molecular weight (Mw) of less than about 1000 and comprising a functional group selected from an amide, an ester, a carboxylic acid, an amine, an imide and combinations thereof to form a charge promoting component; and combining the paste and the charge promoting component to form a liquid electrophotographic ink.

Herein are describes liquid electrophotographic ink compositions and methods for producing liquid electrophotographic ink composition. The liquid electrophotographic ink compositions may be producing using a method comprising: grinding a resin and a pigment to form a paste; reacting an aluminium C.sub.12-24 carboxylate and a molecule having a molecular weight (Mw) of less than about 1000 and comprising a functional group selected from an amide, an ester, a carboxylic acid, an amine, an imide and combinations thereof to form a charge promoting component; and combining the paste and the charge promoting component to form a liquid electrophotographic ink.

A liquid developer containing toner particles and a carrier liquid, the toner particles containing a resin component, wherein the resin component includes a resin A and a resin B, the resin A has a unit Y1 represented by the formula (1) and a unit Y2 represented by the formula (2), the resin B has a unit Y3 represented by the formula (3) and a unit Y4 selected from the units represented by the formulae (4) to (8), the resin A has a unit Y2 content of 1% to 20% by mass, the resin B has a unit Y3 content of 5% to 90% by mass, the resin component has a resin A content of 50% to 99% by mass, and the resin component has a resin B content of 1% to 50% by mass.

A liquid developer contains toner particles containing a binder resin and a colorant, a liquid carrier, a toner-particle dispersant, and a compound represented by formula (1). The liquid carrier contains at least one selected from the group consisting of liquid aliphatic hydrocarbons and liquid polysiloxanes. The toner-particle dispersant is an amine-based dispersant.

A liquid developer contains toner particles containing a binder resin and a colorant, a liquid carrier, a toner-particle dispersant, and a compound represented by formula (1). The liquid carrier contains at least one selected from the group consisting of liquid aliphatic hydrocarbons and liquid polysiloxanes. The toner-particle dispersant is an amine-based dispersant.

The present invention provides an aqueous developer for a flexographic printing plate capable of maintaining good printing reproducibility and suppressing the adhesion and aggregation of the dispersion in the developer during repeated use, and a method of manufacturing a flexographic printing plate using the same. The aqueous developer for a flexographic printing plate according to the present invention is an aqueous developer for a flexographic printing plate containing a surfactant having a molecular weight of 1000 or more, and water.

The present invention provides an aqueous developer for a flexographic printing plate capable of maintaining good printing reproducibility and suppressing the adhesion and aggregation of the dispersion in the developer during repeated use, and a method of manufacturing a flexographic printing plate using the same. The aqueous developer for a flexographic printing plate according to the present invention is an aqueous developer for a flexographic printing plate containing a surfactant having a molecular weight of 1000 or more, and water.

A liquid developer comprising a toner particle, a carrier liquid, and a basic toner particle dispersing agent, wherein the toner particle contains a polyester resin A, and the polyester resin A contains at least one monomer unit selected from the group consisting of monomer units derived from aliphatic monocarboxylic acids having from 1 to 6 carbons and monomer units derived from aromatic monocarboxylic acids having from 7 to 12 carbons.