Abstract: Provided is an ink composition for use in drop on demand inkjet printing such as piezoelectric drop on demand inkjet printing. The ink composition has a phosphine oxide initiator and benzyl acrylate. The amount of benzyl acrylate is less than 40 wt % based on the total weight of the ink composition and the total amount of mono-functional monomers is less than 45 wt % based on the total weight of the ink composition. The phosphine oxide initiator is a bis-acyl phosphine oxide, a benzoyl alkyl phosphinate, or a mixture thereof. The ink compositions are suitable for radiation curing and have good cure properties or good adhesion properties.

Abstract: A single phase curable composition for use in inkjet printing, comprising at least one cationically curable material, at least one cationic photoinitiator and water together with a method of inkjet printing such compositions is provided.

Abstract: A single phase aqueous curable composition suitable for thermal inkjet printing comprises a mixture of curable materials, water in amounts in the range 10 to 30% of the weight of the compositions, and one or more co-solvents for the curable materials. Because the water content is relatively low, a drying step is not required before curing, increasing printing speeds. The composition has good performance and has good adhesion to a wide range of substrates including non-porous and semi-porous materials as well as porous materials.

Abstract: An activator composition for forming an activator-containing region on a substrate for activating a chemical reaction to form a conductive metal region on the substrate, the composition being suitable for thermal inkjet printing, the composition comprising a single phase aqueous composition including one or more curable materials and one or more co-solvents for the curable material(s); and an activator for reaction to form a conductive metal region. Conductive metal regions may be formed on the resulting activator-containing regions by a metallisation reaction such as electroless deposition.

Abstract: A single phase aqueous composition suitable for thermal inkjet printing comprises a mixture of curable materials including at least two curable oligomers; and one or more co-solvents for the curable materials.

Abstract: A single phase aqueous curable composition suitable for thermal inkjet printing comprises a mixture of curable materials, water in amounts in the range 10 to 30% of the weight of the compositions, and one or more co-solvents for the curable materials. Because the water content is relatively low, a drying step is not required before curing, increasing printing speeds. The composition has good performance and has good adhesion to a wide range of substrates including non-porous and semi-porous materials as well as porous materials.

Abstract: There is provided an apparatus and method for inkjet printing, particularly thermal inkjet printing, in which at least one radiation-curing device for curing the radiation-curable ink is integral with, and downstream of, the inkjet printing station. The inkjet printing apparatus further includes a plurality of commercial replaceable inkjet printer cartridges with integral printheads, mounted into a print carriage in fixed array positioned at a set distance above a continuously—moving industrial print media carried on a conveyor or on a web or sheet to engage non-contact printing on said industrial print media with photo-quality, multi-colour print capability.

Abstract: A single phase curable composition for use in inkjet printing, comprising at least one cationically curable material, at least one cationic photoinitiator and water together with a method of inkjet printing such compositions is provided.

Abstract: A single phase aqueous composition suitable for thermal inkjet printing comprises a mixture of curable materials including at least two curable oligomers; and one or more co-solvents for the curable materials.

Abstract: An activator composition for forming an activator-containing region on a substrate for activating a chemical reaction to form a conductive metal region on the substrate, the composition being suitable for thermal inkjet printing, the composition comprising a single phase aqueous composition including one or more curable materials and one or more co-solvents for the curable material(s); and an activator for reaction to form a conductive metal region. Conductive metal regions may be formed on the resulting activator-containing regions by a metallisation reaction such as electroless deposition.