A fluorescent oxygen sensing ink includes at least one organic solvent, at least one polymer binder disposed in the organic solvent, and an oxygen-sensitive fluorescent dye disposed in the organic solvent. The oxygen-sensitive fluorescent dye and the at least one polymer can interact to form a moisture-resistant film. The fluorescent oxygen sensing ink can be incorporated into an oxygen sensing wound dressing.

A fluorescent oxygen sensing ink includes at least one organic solvent, at least one polymer binder disposed in the organic solvent, and an oxygen-sensitive fluorescent dye disposed in the organic solvent. The oxygen-sensitive fluorescent dye and the at least one polymer can interact to form a moisture-resistant film. The fluorescent oxygen sensing ink can be incorporated into an oxygen sensing wound dressing.

The present invention relates to formulations of ink based on nanoparticles of silver and of metal oxides. In particular, the present invention relates to formulations of ink based on nanoparticles of silver and of metal oxides, said inks being stable, having improved conductivity and making it possible to advantageously form electrodes and/or conductive tracks that are particularly suitable for photovoltaic cells, for example on a silicon and/or glass substrate.

The present invention relates to formulations of ink based on nanoparticles of silver and of metal oxides. In particular, the present invention relates to formulations of ink based on nanoparticles of silver and of metal oxides, said inks being stable, having improved conductivity and making it possible to advantageously form electrodes and/or conductive tracks that are particularly suitable for photovoltaic cells, for example on a silicon and/or glass substrate.

An ink composition includes a polymeric binder having an addition copolymer and a ketone aldehyde resin. The addition copolymer is chosen from acrylic resins, vinyl resins including copolymers of vinyl chloride and vinyl acetate, and mixtures and combinations thereof. The ink composition further includes a liquid carrier with at least one organic solvent.

Disclosed is a patterning method by ink lithography. More particularly, the patterning method includes coating thin film-forming nanoparticles surrounded by the first ligand on a substrate to form a nanoparticle thin film; directly spraying a ligand-substituting ink to a selected region on the nanoparticle thin film to form a region in which the first ligand is substituted with the second ligand; and washing the nanoparticle thin film with a washing solvent so that the region substituted with the second ligand is patterned.

Disclosed is a patterning method by ink lithography. More particularly, the patterning method includes coating thin film-forming nanoparticles surrounded by the first ligand on a substrate to form a nanoparticle thin film; directly spraying a ligand-substituting ink to a selected region on the nanoparticle thin film to form a region in which the first ligand is substituted with the second ligand; and washing the nanoparticle thin film with a washing solvent so that the region substituted with the second ligand is patterned.

The invention refers to a disperse black ink comprising: an aqueous vehicle and a black dye dispersion comprising: disperse blue 165, disperse orange 29, disperse red 82 and disperse blue 60, and the use of such black ink in a method for inkjet-printing on a fabric.

The invention refers to a disperse black ink comprising: an aqueous vehicle and a black dye dispersion comprising: disperse blue 165, disperse orange 29, disperse red 82 and disperse blue 60, and the use of such black ink in a method for inkjet-printing on a fabric.

A method of printing with coffee-based ink comprises providing a thermal ink-jet cartridge having a quantity of a coffee-based ink disposed within; receiving optical density data from a user via a touch-screen computerized interface, where the data describes an optical density of the coffee-based ink present within an ink-jet pod; and computing a customized droplet-size for the coffee-based ink in its current state within the thermal ink-jet cartridge. A suitable printing apparatus can include coffee-based ink in a cartridge, an image-processing system, an image processing module for determining, inter alia, droplet size and missing/defective nozzles, and a nozzle-compensation module. Suitable ink formulations are human-edible and aqueous.