Provided are: a structure with a conductive pattern that can be obtained in a simple manufacturing process and that exhibits favorable interlayer adhesion; and a method for manufacturing same. An embodiment of the present invention provides a structure with a conductive pattern, the structure comprising a base material, and a copper-containing conductive layer arranged on the surface of the base material, wherein when a principal surface of the conductive layer on the side facing the base material is a first principal surface, and a principal surface of the conductive layer on the opposite side from the first principal surface is a second principal surface, the conductive layer: has a porosity of 0.01 to 50 volume percent in a first principal surface-side region that extends from the first principal surface to a depth of 100 nm in the thickness direction of the conductive layer.

The disclosure is directed to a printed circuit board for mechanical support and electrical connection of electrical or electronic components. The printed circuit board has conductive tracks and contact pads carved away or etched from at least one sheet layer of copper laminated onto a non-conductive substrate and has a label attached to the printed circuit board at an intended position before the assembly process. Soldering defects often occur due to the deposition of excessive amounts of solder paste on the contact pads of components adjacent to the label. To prevent soldering defects caused by incorrect solder paste application quantities by simple and inexpensive means, the printed circuit board provides the intended position of the label as a depression with respect to the surroundings thereof.

A flake-less molecular ink suitable for printing (e.g. screen printing) conductive traces on a substrate has 30-60 wt % of a C.sub.8-C.sub.12 silver carboxylate and 0.1-10 wt % of a polymeric binder, or 5-75 wt % of bis(2-ethyl-1-hexylamine) copper (II) formate, bis(octylamine) copper (II) formate or tris(octylamine) copper (II) formate and 0.25-10 wt % of a polymeric binder, and balance of at least one organic solvent, wherein the binder has ethyl cellulose, and the ethyl cellulose has an average weight molecular weight in a range of 60,000-95,000 g/mol and a bimodal molecular weight distribution.

A bonding device includes: a bonding head configured to move in a vertical direction; a stage disposed under the bonding head and including a first portion, the first portion having a first plane surface facing the bonding head and a first support surface opposite to the first plane surface; and a supporter disposed under the stage and including a second support surface facing the first support surface, wherein the second support surface of the supporter has a recess portion having a first radius of curvature.

A wiring board, comprising: wiring patterns that are buried with the wiring board, in which at least one of thickness regions to a thickness position of 7 μm toward a direction away from the wiring patterns with each of one surface and the other surface of the wiring pattern in a thickness direction as a reference has an elastic modulus at 240° C. equal to or greater than 300 MPa, and a dielectric loss tangent is equal to or less than 0.006.

A wiring board, comprising: wiring patterns that are buried in the wiring board, in which a region positioned between wiring patterns disposed in an in-plane direction of the same plane has an elastic modulus at 140° C. equal to or less than 0.1 MPa, and a dielectric loss tangent is equal to or less than 0.006.

According to an aspect of the present disclosures, a method of making a flexible printed circuit board, which includes a base film having an insulating property, a conductive pattern disposed on either one or both surfaces of the base film, and a cover layer covering a conductive-pattern side of a laminated structure inclusive of the base film and the conductive pattern, includes a superimposing step of superimposing a cover film on the conductive-pattern side of the laminated structure, the cover film having a first resin layer and a second resin layer that is laminated to an inner side of the first resin layer and that softens at a lower temperature than does the first resin layer, and a pressure bonding step of vacuum bagging the laminated structure and the cover film at a temperature higher than a softening temperature of the second resin layer.

Disclosed is a composition containing copper particles and organic solvents, in which the organic solvents include a first organic solvent having a vapor pressure at 20° C. of 200 Pa or more and 20 kPa or less, and a second organic solvent having a vapor pressure at 20° C. of 0.5 Pa or more and less than 200 Pa.

Disclosed is a composition containing copper particles and organic solvents, in which the organic solvents include a first organic solvent having a vapor pressure at 20° C. of 200 Pa or more and 20 kPa or less, and a second organic solvent having a vapor pressure at 20° C. of 0.5 Pa or more and less than 200 Pa.

A glass wiring board that can be kept from cracking by better preventing concentration of stresses in a glass plate on which a conductor layer including an electrolytic copper plating layer is provided, the wiring board includes: a glass plate; a first metal layer covering at least a part of the glass plate; and a second metal layer covering at least a part of the first metal layer, and the area of the first metal layer in contact with the second metal layer is smaller than the area of the second metal layer facing the first metal layer.