According to one aspect of the present invention, a substrate for a printed circuit board includes: an insulating base film; and a metal layer that covers an entirety or a part of one or both surfaces of the base film, wherein the metal layer includes a sintered body layer of copper nanoparticles, and wherein the sintered body layer includes nitrogen atoms by greater than or equal to 0.5 atomic % and less than or equal to 5.0 atomic %.

Disclosed is a stretchable member with a metal foil including a stretchable resin base material, and a conductive metal foil provided on the stretchable resin base material. A surface of the metal foil on the stretchable resin base material side is a roughened surface having surface roughness Ra of 0.1 m to 3 m.

Provided is a method for producing a metal-clad laminate of a thermoplastic liquid crystal polymer film (TLCP film) and a metal sheet(s) bonded to at least one surface of the film using roll-to-roll processing. The metal sheet has a surface with a ten-point average roughness (Rz) of 5.0 m or less to be bonded to the TLCP film. The method includes preparing the laminate, dry-treating the laminate by subjecting the laminate passed through a dry zone satisfying the following conditions (1) and (2): (1) a drying temperature of lower than the melting point of the TLCP film, (2) for a drying period of 10 seconds or longer, and heat-treating the dried laminate by subjecting the laminate passed through a heating zone on a temperature condition of not lower than the melting point of the TLCP film successively after the dry treatment.

Disclosed is a surface treated copper foil in which the dropping of the roughening particles from the roughening treatment layer provided on the surface of the copper foil is favorably suppressed. Also disclosed is a surface treated copper foil, comprising a copper foil, a roughening treatment layer on one surface, and/or another roughening treatment layer the other surface of the copper foil, wherein a height of roughening particles of the roughening treatment layer is 5 to 1000 nm from the surface, a color difference E*ab according to JIS Z 8730 of a surface of a side of the roughening treatment layer is 65 or less, and a glossiness of the TD of the surface of the side of the roughening treatment layer is 70% or less.

A stacked electronic structure comprises: a substrate and a magnetic device, wherein electronic devices and conductive pillars are disposed on and electrically connected to the substrate, wherein a molding body encapsulates the electronic devices, and the magnetic device is disposed over and electrically connected to the conductive pillars, wherein at least one recess or groove can be formed on the bottom surface of the conductive pillar, such as copper pillar, to help the venting of the soldering material as well as to increase the soldering area.

There is provided an electric connection member having a substrate, an insulating adhesive layer provided on the substrate, and a conductive interconnect, wherein the electric connection member is provided with a recess that opens at a side of the insulating adhesive layer, the conductive interconnect is disposed in the recess, a metal nano-ink is disposed on the conductive interconnect, and all of the metal nano-ink is contained inside the recess.

There are provided a wiring substrate having a low dielectric constant and a low dielectric loss tangent, and an adhesive-attached copper foil and a copper-clad laminate that are suitable for manufacture of the wiring substrate and have improved adhesiveness to a copper foil. An adhesive-attached copper foil includes: a copper foil on one surface; and an adhesive layer provided on one surface of the copper foil, in which this copper foil has a roughened surface that is surface-treated by methacrylic silane, acrylic silane, or isocyanurate silane, and the adhesive layer is formed on the roughened surface and is made of a resin composition containing, as a main component thereof, modified polyphenylene ether resulting from modification of a hydroxyl group present at the end of the main chain with an ethylenically unsaturated compound.

Disclosed is a stretchable member with a metal foil including a stretchable resin base material, and a conductive metal foil provided on the stretchable resin base material. A surface of the metal foil on the stretchable resin base material side is a roughened surface having surface roughness Ra of 0.1 m to 3 m.

The present disclosure provides a micro-rough electrolytic copper foil and a copper clad laminate. The electrolytic copper foil has a micro-rough surface formed with mountain-shaped structures and recessed structures. A multiplication value of an arithmetic mean height (Sa) and a vertex density (Spd) of the mountain-shaped structures measured according to ISO 25178 is between 150000 m/mm.sup.2 and 400000 m/mm.sup.2. An arithmetic mean undulation (Wa) of the mountain-shaped structures measured according to JIS B0601:2001 is between 0.06 m and 1.5 m. Therefore, the electrolytic copper foil with good binding strength and electrical properties can be obtained.

The present application discloses a conductive laminated structure, a manufacturing method thereof, and a display panel. The conductive laminated structure provided by the present application comprises a substrate; an adhesion enhancement layer disposed on the substrate; a metal nanowire layer disposed on the adhesion enhancement layer and having a first opening to expose the adhesion enhancement layer; a wiring layer disposed on the metal nanowire layer and having a second opening at least partially overlapping the first opening to expose the adhesion enhancement layer; and an optical adhesive layer disposed on the wiring layer, filled in the second opening and the first opening and connected to the adhesion enhancement layer. Because the metal nanowire layer is in direct contact with the wiring layer, the conducting capability is enhanced, and a reduced contacting area is needed, so that the wiring layer can be relatively narrow.