An aqueous composition can be used for pre-treating a substrate prior to inkjet printing. This composition includes: (a) one or more water-soluble salts of a multivalent metal cation; and (b) composite particles having a Rockwell Hardness of less than or equal to R90 and each of the composite particles comprising domains of a (i) first organic polymer and domains of a (ii) second organic polymer. The domains of the (ii) second organic polymer are dispersed within the domains of the (i) first organic polymer. Moreover, the melting point of the (i) first organic polymer is lower than the melting point of the (ii) second organic polymer. The weight ratio of the (i) first organic polymer to the (ii) second organic polymer is chosen such that the (b) composite particles have a density of 1.0-1.5 g/ml.

An aqueous composition can be used for pre-treating a substrate prior to inkjet printing. This composition includes: (a) one or more water-soluble salts of a multivalent metal cation; and (b) composite particles having a Rockwell Hardness of less than or equal to R90 and each of the composite particles comprising domains of a (i) first organic polymer and domains of a (ii) second organic polymer. The domains of the (ii) second organic polymer are dispersed within the domains of the (i) first organic polymer. Moreover, the melting point of the (i) first organic polymer is lower than the melting point of the (ii) second organic polymer. The weight ratio of the (i) first organic polymer to the (ii) second organic polymer is chosen such that the (b) composite particles have a density of 1.0-1.5 g/ml.

A skin printing solution system includes a skin printing device that provides a user with a skin printing solution user interface including an online art gallery, a skin printing server that provides the online art gallery to the skin printing device, and a skin printer that outputs a tattoo image received from the skin printing device to a print region. Herein, when the user selects a tattoo image through the skin printing solution user interface, the skin printing device receives the selected tattoo image from the skin printing server and transmits the received tattoo image to the skin printer. In addition, the online art gallery includes multiple tattoo images, and the print region is the skin of the user or a different user.

A conductive paste of the present invention includes an elastomer composition containing silica particles (C), a conductive filler, and a solvent.

A conductive paste of the present invention includes an elastomer composition containing silica particles (C), a conductive filler, and a solvent.

A black sheet (1) includes a laminate of a base sheet (11) and an infrared reflecting layer (12). The CIE color values (L*, a*, b*) and the infrared reflectance R/[%] at a wavelength of 850 nm are within the following respective ranges. 18L*36, 3a*3, 3b*3, 12R

An ink comprising water, an organic solvent, and a polyurethane resin particle is provided. A rate of content of a compound having a molecular weight of 1,000 or less and having a structure represented by the following general formula (I) in the ink is 10 ppm or less.

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An ink comprising water, an organic solvent, and a polyurethane resin particle is provided. A rate of content of a compound having a molecular weight of 1,000 or less and having a structure represented by the following general formula (I) in the ink is 10 ppm or less.

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An ink formulation for 3D printing comprises a triblock copolymer in a solvent, where the triblock copolymer includes end blocks comprising an aromatic or acrylate polymer and a midblock between the end blocks comprising an aliphatic polymer. The ink formulation exhibits a shear thinning threshold of about 0.02 rad/sec or less. A method of making a 3D printed radiofrequency (RF) device comprises extruding an ink formulation from a deposition nozzle moving relative to a substrate, where the ink formulation comprises a triblock copolymer in a solvent and the triblock copolymer includes end blocks comprising an aromatic or acrylate polymer and a midblock between the end blocks comprising an aliphatic polymer. One or more continuous filaments comprising the ink formulation are deposited in a predetermined pattern on the substrate, and the ink formulation is treated to remove or cure the solvent, thereby forming a printed RF device.

An ink formulation for 3D printing comprises a triblock copolymer in a solvent, where the triblock copolymer includes end blocks comprising an aromatic or acrylate polymer and a midblock between the end blocks comprising an aliphatic polymer. The ink formulation exhibits a shear thinning threshold of about 0.02 rad/sec or less. A method of making a 3D printed radiofrequency (RF) device comprises extruding an ink formulation from a deposition nozzle moving relative to a substrate, where the ink formulation comprises a triblock copolymer in a solvent and the triblock copolymer includes end blocks comprising an aromatic or acrylate polymer and a midblock between the end blocks comprising an aliphatic polymer. One or more continuous filaments comprising the ink formulation are deposited in a predetermined pattern on the substrate, and the ink formulation is treated to remove or cure the solvent, thereby forming a printed RF device.