A printable molecular ink that is can be treated (e.g. dried or curable) and sintered using broad spectrum ultraviolet light is provided to produce electrically conductive traces on a low temperature substrate, for example PET. The ink includes a silver or copper carboxylate, an organic amine compound, and may include a thermal protecting agent.

A printable molecular ink that is can be treated (e.g. dried or curable) and sintered using broad spectrum ultraviolet light is provided to produce electrically conductive traces on a low temperature substrate, for example PET. The ink includes a silver or copper carboxylate, an organic amine compound, and may include a thermal protecting agent.

A resin solution for printing including a nonpolar solvent; and a thermoplastic elastomer having a silicon atom-containing polar group, the thermoplastic elastomer being dissolved in the nonpolar solvent, wherein the resin solution has a viscosity of 1 cP or higher and 5000 cP or lower; and a method for producing a device structure body using the same. The viscosity of the resin solution for printing is preferably 1 cP or higher and 1000 cP or lower. The thermoplastic elastomer is preferably a hydrogenated aromatic vinyl compound-conjugated diene copolymer. The resin solution for printing preferably contains a hygroscopic particle, and a dispersant dissolved in the nonpolar solvent.

A resin solution for printing including a nonpolar solvent; and a thermoplastic elastomer having a silicon atom-containing polar group, the thermoplastic elastomer being dissolved in the nonpolar solvent, wherein the resin solution has a viscosity of 1 cP or higher and 5000 cP or lower; and a method for producing a device structure body using the same. The viscosity of the resin solution for printing is preferably 1 cP or higher and 1000 cP or lower. The thermoplastic elastomer is preferably a hydrogenated aromatic vinyl compound-conjugated diene copolymer. The resin solution for printing preferably contains a hygroscopic particle, and a dispersant dissolved in the nonpolar solvent.

A fluid set can include an ink composition including an ink vehicle, pigment, and from 2 wt % to 15 wt % acrylic latex binder. The fluid set can also include a fixer fluid including a fixer vehicle, and from 0.5 wt % to 12 wt % of a cationic fixing agent including an azetidinium-containing polyamine.

A fluid set can include an ink composition including an ink vehicle, pigment, and from 2 wt % to 15 wt % acrylic latex binder. The fluid set can also include a fixer fluid including a fixer vehicle, and from 0.5 wt % to 12 wt % of a cationic fixing agent including an azetidinium-containing polyamine.

A printable ink mixture may include: a medium, orthophosphoric acid, at least one metal oxide, and at least one pigment. A method for producing a color print on a glass or ceramic surface may include: producing an ink mixture including a medium, orthophosphoric acid, at least one metal oxide, and at least one pigment, applying the ink mixture to the glass or ceramic surface, removing the medium from the ink mixture, and baking the ink mixture on the glass or ceramic surface to produce the color print.

A printable ink mixture may include: a medium, orthophosphoric acid, at least one metal oxide, and at least one pigment. A method for producing a color print on a glass or ceramic surface may include: producing an ink mixture including a medium, orthophosphoric acid, at least one metal oxide, and at least one pigment, applying the ink mixture to the glass or ceramic surface, removing the medium from the ink mixture, and baking the ink mixture on the glass or ceramic surface to produce the color print.

A conductive ink composition is disclosed comprising conductive solids and a medium, wherein the conductive solids comprise glass flakes coated with an electrically conductive coating. Optionally, the electrically conductive coating may comprise a conductor selected from the group comprising silver, nickel, gold, metal nanoparticles, indium tin oxide, fluorine doped tin oxide. The conductive ink composition may comprise a percentage by weight of glass flakes coated with an electrically conductive coating less than or equal to 50%. Also disclosed is a method of manufacturing the conductive ink composition, a printed article, and a method of manufacturing the printed article.

A conductive ink composition is disclosed comprising conductive solids and a medium, wherein the conductive solids comprise glass flakes coated with an electrically conductive coating. Optionally, the electrically conductive coating may comprise a conductor selected from the group comprising silver, nickel, gold, metal nanoparticles, indium tin oxide, fluorine doped tin oxide. The conductive ink composition may comprise a percentage by weight of glass flakes coated with an electrically conductive coating less than or equal to 50%. Also disclosed is a method of manufacturing the conductive ink composition, a printed article, and a method of manufacturing the printed article.