A conductive ink functional material and a preparation method thereof. The conductive ink functional material is a surface-functionalized metal nanoparticle, and the surface of the metal nanoparticle is bonded to a molecule containing an electronic medium by a covalent bond. A functionalized conductive ink and a preparation method thereof. The ink is prepared from the conductive ink functional material.

The present invention provides energy curable compositions that are curable using UV LED radiation. The compositions comprise vinyl methyl oxazolidinone (VMOX), as well as other components generally found in energy curable inks, such as ethylenically unsaturated monomers (in addition to VMOX), acrylated oligomers, and photoinitiators. The compositions are suitable for high speed flexographic or gravure printing.

Provided are pre-coat formulations, ink formulations, ink systems and printing methods for patterning a surface with a desired pattern.

The present invention provides energy curable compositions comprising self-initiating oligomers, amine synergists and Group IV metal chelates. The compositions optionally comprise acrylate monomers having carbonate ester, carbamate, or oxazolidinone groups. The compositions of the present invention exhibit improved cure, and are suitable for packaging, such as food packaging.

The present invention relates to a method of printing an image on a fibrous substrate by inkjet printing, wherein the method comprises applying a water-based ink composition onto the substrate, wherein the ink composition comprises a carboxylic or sulfonic acid functional co-polymer having an acid number of ≥225 mg KOH/g, a pigment, water and at least one organic co-solvent. The present invention also relates to use of said water-based ink composition for printing an image on a fibrous substrate by inkjet printing.

Disclosed is a printed object which, even if using a receptive layer that is difficult for a monomer in an active energy ray curable ink to penetrate, has excellent adhesion between the active energy ray curable ink and the receptive layer, and in which the amount of unreacted monomer dissipated from the printed object is low. This printed object includes an ink receptive layer laminated on a substrate surface and having an ink absorption rate of 100% or less, and an ink layer laminated on a surface of the ink receptive layer and made from an active energy ray curable ink which includes a polymerizable compound, wherein the glass transition temperature of the polymerizable compound is −45-25° C.

An inkjet printed flexible film for decor applications is provided. In particular the present invention relates to an inkjet printed flexible film comprising a polymer film and an ink-receptive layer comprising polymerizable and/or crosslinkable compounds or a polymer crosslinked via (meth)acrylate moieties. Ink pigments can be applied to the ink-receptive layer in a print pattern by ink jet printing. The ink-receptive layer can be printed by means of industrial digital inkjet printing. The decor applications include any decorated surfaces for flooring, wall covering, furniture, ceilings and the like.

A fabric printable medium includes a fabric base substrate including yarn strands and voids among the yarn strands; a finishing coating attached to the yarn strands of the fabric base substrate to form coated yarn strands; and pore spaces among the coated yarn strands and coinciding with at least some of the voids of the fabric base substrate. The finishing coating includes a crosslinked polymeric network. The fabric printable medium further includes a fire retardant coating applied to aback-side of the coated yarn strands.

Methods of making recyclable flexible packaging material include steps of printing ink onto a recyclable polymer print film and forming a heat resistant coating on the print film. The coated and printed film can further be laminated to a sealant film of a same or similar recyclable polymer to form a recyclable laminate material suitable for heat sealable pouching applications.

An intermediate transfer medium that allows formation of high-density images on a transfer layer while suppressing printing unevenness and provides good foil cutting properties of the transfer layer, a combination of the intermediate transfer medium and a thermal transfer sheet, and a method for forming a print using the intermediate transfer medium. In an intermediate transfer medium having a transfer layer on a substrate, the transfer layer has a single layer structure including only a receiving layer or a layered structure including the receiving layer. When the transfer layer has the layered structure, the receiving layer is located furthest from the substrate among layers constituting the transfer layer. The receiving layer contains a binder resin having a number average molecular weight of 8000-32000 and a release agent. The content of the release agent based on the total mass of the receiving layer is 6% by mass or more.