Abstract: A method of preparing a packaging box (50) wherein late stage customization (20) is provided on the inside of the packaging box. Late stage customization is provided on a folded packaging box. Late stage customization is provided by an imaging technique selected from laser marking, laser engraving, thermal printing and inkjet printing. The packaging box includes an image-receiving layer adapted to the imaging-technique.

Abstract: A method for making a negative-working lithographic printing plate includes subjecting an image-wise exposed, developed, and dried plate precursor to UV LED radiation.

Abstract: An effervescent developer precursor for preparing a developing solution for developing a lithographic printing plate precursor including an effervescence generating compound.

Abstract: An effervescent developer precursor for preparing a developing solution for developing a lithographic printing plate precursor including an effervescence generating compound.

Abstract: A negative-working lithographic printing plate precursor includes (i) a support having a hydrophilic surface or which is provided with a hydrophilic layer, and (ii) a coating including a photopolymerisable layer including a photoinitiator and a polymerizable compound, and the photoinitiator includes at least one structural moiety including an oligo- or poly(alkyleneglycol).

Abstract: A method for making a negative-working lithographic printing plate is disclosed which includes subjecting an image-wise exposed, developed and dried plate precursor to UV LED radiation.

Abstract: The present application relates to methods for producing materials having viable micro-organisms incorporated therein. More particularly, the materials are produced under high temperature and/or high pressure conditions, and the micro-organisms are incorporated in the material before or during these conditions. Also provided are micro-organisms that remain viable under these conditions and have different applications, depending on the nature of the material.

Abstract: A method of making a lithographic printing plate includes the steps of (i) image wise exposing a lithographic printing plate precursor with a digitally modulated light source so as to obtain image areas in the exposed parts of the precursor and non-image areas in the non-exposed parts of the precursor, the precursor including a hydrophilic substrate and a photosensitive layer applied onto the substrate, the photosensitive layer including a diazonium compound; and (ii) contacting the exposed precursor with an aqueous solution including a water-soluble hydrophilic polymer and/or surfactant and having a pH between 3 and 9 thereby first removing the photosensitive layer in the non-image areas and depositing the hydrophilic polymer and/or surfactant onto the substrate in the non-image areas of the printing plate precursor.

Abstract: A method for making a lithographic printing plate by direct-to-plate recording includes the step of image-wise deposition of a hydrophobic coating by microplasma onto a hydrophilic support or a support provided with a hydrophilic layer.

Abstract: A lithographic printing plate precursor includes (i) a support having a hydrophilic surface or which is provided with a hydrophilic layer, and (ii) a coating including a photopolymerisable layer, characterised in that the photopolymerisable layer includes a compound including at least one free radically polymerisable group and at least one moiety having a structure according to Formula (I): wherein X represents O or NR* and R* represents hydrogen, an optionally substituted alkyl, aryl, aralkyl or heteroaryl group; and * denotes the linking positions to the rest of the compound.

Abstract: A method of making a lithographic printing plate includes the steps of a) image-wise exposing a lithographic printing plate precursor including a hydrophilic support and a coating containing a colorant precursor to form a lithographic image consisting of printing areas and non-printing areas, b) developing the plate precursor to remove the coating in the non-printing areas from the support, and c) drying the plate precursor, and d) subjecting the plate precursor to heat or radiation to induce a colour change of the coating in the printing areas, wherein before step b) the coating in the non-printing areas and the support are characterised by a CIE 1976 colour difference ?E1 which is 5.0 or less, and after step d) the CIE 1976 colour difference ?E2 between the coating in the printing areas and the non-printing areas is more than 6.8.

Abstract: A polymeric stabilizer is produced by copolymerizing an unsaturated polyether with an unsaturated low molecular weight monomer in a controlled radical polymerization. The polymeric stabilizer is useful for producing polymer polyol products via a mechanical dispersion process or an in situ polymerization process.

Abstract: A method for making a lithographic printing plate includes the steps of: a) providing a lithographic printing plate precursor including a support having a hydrophilic surface or which is provided with a hydrophilic layer, and a coating provided thereon, the coating including a photopolymerisable layer including a photopolymerisable composition, b) image-wise exposing the precursor, c) optionally heating the precursor, d) developing the precursor by treating the precursor with a gum solution so that the precursor is developed and gummed in one single step, characterized in that the photopolymerisable composition includes a monomer represented by Formula (I) and/or Formula (II): wherein *denotes the linking positions to the rest of the compound.

Abstract: A negative-working lithographic printing plate precursor includes a support and a coating containing a photopolymerizable layer including a polymerizable compound including: a free radical polymerizable group, and at least one moiety having a structure according to Formula (I): wherein n represents an integer equal to 0 or 1; L1 represents a divalent linking group; and * denotes the linking positions to the rest of the structure, with the proviso that the carbonyl groups in Formula (I) are bonded to a carbon atom.

Abstract: A negative-working lithographic printing plate precursor includes a support and a coating containing a photopolymerisable layer; characterized in that the coating includes a compound including at least one moiety having a structure according to Formula (I) at a level above 10% wt and below 40% wt relative to the total dry weight of the ingredients of the coating: wherein n represents an integer equal to 0 or 1; L1 represents a divalent linking group; with the proviso that the carbonyl groups in Formula (I) are bonded to a carbon atom.

Abstract: A lithographic printing plate precursor includes (i) a support having a hydrophilic surface or which is provided with a hydrophilic layer, and (ii) a coating including a photopolymerisable layer, characterised in that the photopolymerisable layer includes a compound including at least one free radically polymerisable group and at least one moiety having a structure according to Formula (I): wherein X represents O or NR* and R* represents hydrogen, an optionally substituted alkyl, aryl, aralkyl or heteroaryl group; and * denotes the linking positions to the rest of the compound.

Abstract: A method of making a lithographic printing plate includes the steps of a) image-wise exposing a lithographic printing plate precursor including a hydrophilic support and a coating containing a colorant precursor to form a lithographic image consisting of printing areas and non-printing areas, b) developing the plate precursor to remove the coating in the non-printing areas from the support, and c) drying the plate precursor, and d) subjecting the plate precursor to heat or radiation to induce a colour change of the coating in the printing areas, wherein before step b) the coating in the non-printing areas and the support are characterised by a CIE 1976 colour difference ?E1 which is 5.0 or less, and after step d) the CIE 1976 colour difference ?E2 between the coating in the printing areas and the non-printing areas is more than 6.8.

Abstract: A method of making a lithographic printing plate includes the steps of a) image-wise exposing a lithographic printing plate precursor, including a support including a hydrophilic surface or a hydrophilic layer and, thereon, a light or heat sensitive coating including a photopolymerizable composition, b) processing the precursor, consecutively, with a first solution and a second solution, to remove the coating from the support in the non-printing areas, wherein the first and second solutions are provided by a cascade system, the second solution overflows into the first solution and the first solution overflows into a container to be treated as waste, and the second solution is regenerated by adding a replenishing solution or a mixture of replenishing solutions at a rate of at least 5 ml/m2 of treated precursor and at most 100 ml/m2 of treated precursor.

Abstract: A negative-working lithographic printing plate precursor includes a coating containing a photopolymerizable layer and optionally an intermediate layer between the photopolymerizable layer and the support, wherein the coating further includes a polysiloxane, the polysiloxane being present in the photopolymerizable layer and/or in the optional intermediate layer, and the polysiloxane is obtained by reacting at least one organosilicon compound represented by the general Formula (I) and at least one organosilicon compound represented by the general Formula (II):

Abstract: A negative-working lithographic printing plate precursor includes a support and a coating containing a photopolymerisable layer including a polymerisable compound including: a free radical polymerisable group, and at least one moiety having a structure according to Formula (I): wherein n represents an integer equal to 0 or 1; L1 represents a divalent linking group; and * denotes the linking positions to the rest of the structure, with the proviso that the carbonyl groups in Formula (I) are bonded to a carbon atom.