Abstract: An organic electronic device comprising an anode, a cathode, a semiconducting layer between the anode and the cathode and a hole transporting layer between the anode and the semiconducting layer, the hole-transporting layer comprising a co-polymer comprising repeat units of formula (I) and one or more co-repeat units: (I) wherein: Ar1 independently in each occurrence represents a fused aryl or fused heteroaryl group that may be unsubstituted or substituted with one or more substituents; Ar2 represents an aryl or heteroaryl group that may be unsubstituted or substituted with one or more substituents; R independently in each occurrence represents a substituent; and m is 1 or 2, preferably 1; and each Ar1 is directly bound to an aromatic or heteroaromatic group of a co-repeat unit.

Abstract: The image forming method of the present invention includes imparting ink to form an image on a recording medium, drying the image, and curing the image after the drying process, wherein the recording medium has one or a plurality of pigment layers on at least one surface of a support with cellulose pulp as a main component, and a transference amount of pure water into the recording medium is specific value, and the ink composition includes a pigment, water, and a water soluble polymerizable compound where the content ratio is equal to or more than 15 mass % and less than 40 mass %, and the content of a water soluble organic solvent is less than 3 mass %.

Abstract: A composition includes a mixture of a first polymer and a second polymer. The first polymer is selected from the group consisting of a polymer including ethylene residues and vinyl alcohol residues and a polymer including vinyl alcohol residues. The second polymer includes ethylene residues, vinyl acetate residues and maleic anhydride residues. An amount of the first polymer in the mixture is about 50% to about 95% by weight. An ink-printable composition includes the above composition as an ink-receiving material.

Abstract: A composition includes a mixture including a first polymer and a second polymer. The first polymer includes methyl acrylate or ethyl acrylate residues in an amount of about 15% to about 25% by weight of the first polymer, maleic anhydride residues in an amount of about 2% to about 3.5% by weight of the first polymer, and ethylene residues. The second polymer includes butyl acrylate residues in an amount of about 5% to about 10% by weight of the second polymer, maleic anhydride residues in an amount of about 3% to about 4% by weight of the second polymer, and ethylene residues. An amount of the first polymer in the mixture is about 60% to about 90% by weight. The mixture may further include a pigment-LDPE composition wherein the amount of the first polymer in the mixture is about 50% to about 70% by weight.

Abstract: An inkjet recording material that contains a supporting substrate and an image-receiving layer formed on at least one side of the supporting substrate, said layer including at least one inorganic pigment, and a latex binder having the formula (I). Also disclosed herein are the method of making said inkjet recording material and a method for producing printed images that encompasses using said recording material.

Abstract: An inkjet recording medium includes a support and an ink-receiving layer which is disposed on the support and which contains an alumina pigment and an alkylsulfonic acid having the carbon number of 1 or more and 4 or less. The ink-receiving layer further contains a polymeric compound, a water-soluble zirconium compound, and boric acid or a borate. The polymeric compound is one obtained by cationizing at least one amino group of a product with acid, the product being obtained by the reaction of at least three compounds, that is, (i) a sulfur-containing organic compound containing two or more active hydrogen atoms, (ii) a polyisocyanate compound containing two or more isocyanate groups, and (iii) an amine compound containing two or more active hydrogen atoms.

Abstract: Process for improving the resolution of inkjet printing of polymer films comprising a base polymer according to which a copolymer additive comprising a polymer group A and a polymer group B is blended with the base polymer, group A having a lower surface tension than that of the base polymer and group B being compatible with the base polymer.

Abstract: A display panel has a resin substrate and a printed layer formed on at least a part of the resin substrate through inkjet printing. The printed layer is formed from cured products of UV-curable inks each containing UV-curable monomers which are polymerized and cured by UV irradiation, and the printed layer has at least two such cured products having different pencil hardness values.

Abstract: The present invention relates to a material intended for forming or printing images, comprising a support and at least one hydrophilic binder-based layer, and its manufacturing method, said method enabling the gelation process of the hydrophilic binder to be controlled. The material according to the invention is characterized in that in at least one of said hydrophilic binder-based layers, said hydrophilic binder is gelated by complexation with a complexing agent present on a heat-sensitive polymer or copolymer, that is hydrophobic at temperatures higher than its lower critical solution temperature LCST to protect the complexing agent, and water-soluble at temperatures less than its LCST to make the complexing agent accessible, the LCST of the heat-sensitive (co)polymer being higher than the setting temperature of said hydrophilic binder. The material according to the invention can be used as photographic material or as material taking aqueous ink compositions applied by the inkjet printing technique.

Abstract: An ink-jet transfer system is disclosed, as well as a transfer printed product which is highly wash-resistant, color-fast and environment-friendly, and a process for producing the same and its use in a printing process by means of the disclosed ink-jet transfer system. The disclosed ink-jet transfer system has a substrate, a hot-melt layer applied on the substrate and at least one ink-absorbing layer which comprises a mixture of a highly porous pigment and a binder. The molecules of the pigment and if required of the binder and hot-melt layer can form chemical bonds with the dyeing molecules of the ink.

Abstract: An inkjet coating composition for coating a substrate to absorb ink from an inkjet printer comprises a combination of (a) polydiallyldimethyl ammonium chloride (pDADMAC), (b) a crosslinkable cationic polymer, (c) colloidal silica, (d) silica gel, (e) a binder, preferably vinyl acetate-ethylene copolymer, and (f) water.

Abstract: A halogenated bisdiarylaminopolycyclic aromatic compound, polymers made therefrom, and polymeric light emitting diode devices using the polymers are described. The halogenated compound is represented by formula (I), wherein Ar and Ar? are each independently substituted or unsubstituted aryl groups and Z is a polycyclic arylene group, wherein at least one of the Ar? groups is a haloaryl group. Devices using polymers prepared from the halogenated compound exhibit improved performance and longer lifetime, presumably as a result of the presence of the geometrically constrained diarylaminopolycyclic aromatic groups in the polymer backbone.

Abstract: An ink jet recording media system is described which comprises at least one coating layer that comprises a copolymer or cooligomer, which copolymer or cooligomer comprises monomer units derived from at least one monomer selected from the group consisting of the acrylate and acrylamide monomers, at least one monomer selected from the group consisting of the amine containing ethylenically unsaturated monomers and at least one monomer selected from the group consisting of the polyacrylates of polyols. The copolymer or cooligomer is at least partially neutralized with acid. The media system exhibits excellent dye wash fastness, fast dry times, high gloss and excellent light fastness.

Abstract: A composition for an ink acceptable layer has excellent light resistance and discoloration resistance while maintaining improved ink fixation properties and glossiness. A recording medium for an image forming apparatuses using the composition, and a method for preparing the recording medium are also provided. The composition for forming an ink acceptable layer according to an exemplary embodiment includes a fixing agent, an inorganic filler, a binder and a solvent. The fixing agent is a polymeric material containing UV-absorbing constituents.

Abstract: The invention provides an image receptor medium which includes a biaxially oriented, melt-processed image receptive film comprising a) an immiscible blend of at least one semicrystalline polymer component and at least one ink absorptive polymer component and b) at least one inorganic filler. The image receptor medium may further include one or more additional layers such as support or adhesive layers.

Abstract: An image retaining card is disclosed. An image retaining card in accordance with the present invention may be utilized as an identification card, a driver's license, a passport, and the like. An image retaining card in accordance with the present invention comprises a substrate structure, a cover, and an image receptive material disposed between the substrate structure and the cover. The substrate structure comprises a substrate layer and a substrate tie layer.

Abstract: Printable, coated plastic substrates are disclosed. Plastic substrates are preferably films substrates, which are coated with a printable coating composition layer which comprises: an anionic acrylic polymer; and epoxy acrylate in an amount sufficient to improve ink adhesion in said coating composition. The anionic acrylic polymer can be cross-linked to an extent sufficient to improve the resistance of said coating to isopropyl alcohol and/or hot water, using a cross-linking agent.

Abstract: Print paper for ink printing and method for producing and using the same is provided. The ink print paper includes a cationic dispersion polymer including nonionic monomers and cationic monomers. The cationic monomers at least include an effective amount of hydrophobic cationic monomers such that the cationic dispersion polymer effectively forms a film layer on a surface of the ink print paper to enhance ink print quality.

Abstract: The present invention relates to an ink recording element comprising a hydrophilic absorbing layer and a hydrophilic overcoat polymer layer comprising cellulose ether and a vinyl latex polymer. An optional inner layer may be placed between the hydrophilic absorbing layer and the laminate adhesion promoting hydrophilic overcoat polymer. Another embodiment of the invention relates to an ink printing method comprising providing an ink recording element as described above, and applying liquid ink droplets thereon in an image-wise manner.

Abstract: In one aspect, the invention provides an image receptor medium which comprises an extruded image receptive layer that is receptive to solvent-based inkjet ink. Image receptive layers of the invention comprise a blend of an ink absorptive resin and a carrier resin. The ink absorptive resin is compatible with the carrier resin and had a Hildebrand Solubility Parameter within about 3.1 (MPa)1/2 of that of the solvent of the ink. In another aspect, the invention provides an image receptor medium which comprises a coextruded or extrusion coated image receptive layer and a core layer bonded together. In other aspects, the invention provides methods of printing images and methods of making an extrusion coated or coextruded image receptor medium.

Abstract: The invention provides an image receptor medium which comprises a biaxially oriented, melt-processed image receptive film comprising a) an immiscible blend of at least one semicrystalline polymer component and at least one ink absorptive polymer component and b) at least one inorganic filler. The image receptor medium may further comprise one or more additional layers such as support or adhesive layers.

Abstract: An imageable media is disclosed. An imageable media in accordance with the present invention comprises a substrate having a first surface and a porous layer overlaying the first surface of the substrate. In a preferred embodiment, for pigmented inks, a plurality of ink retaining silica particles are disposed within the porous layer. After inkjet imaging with pigmented ink, the porous layer may be fused to create a durable, tamper and scuff resistant, waterproof graphic without a laminate. In another preferred embodiment for dye based inks, a plurality of zeolite particles and a plurality of cross-linked polyvinylpyrrolidone particles are disposed within the porous layer. The porous layer may be imbibed with an ink retention coating for dye based inks. Imageable media made with this invention has utility for commercial graphics, labels and ID cards.

Abstract: A recording medium comprises a porous outermost layer on a substrate, the porous outermost layer containing a particulate thermoplastic resin, and the particulate thermoplastic resin exhibiting a &Dgr;E value of not higher than 20 after light exposure. The difference of glass transition temperature of the particulate thermoplastic resin from minimum film-forming temperature thereof may be not less than 10° C., and the minimum film-forming temperature is not lower than 50° C. A process for producing the recording medium comprises forming a porous outermost layer by heat treatment at a temperature of not lower than the glass transition temperature of the particulate thermoplastic resin, but not higher than the minimum film-forming temperature thereof.