High-speed interconnects for printed circuit boards and methods for forming the high-speed interconnects are described. A high-speed interconnect may comprise a region of a conductive film having a reduced surface roughness and one or more regions that have been treated for improved bonding with an adjacent insulating layer. Regions of reduced roughness may be used to carry high data rate signals within PCBs. Regions treated for bonding may include a roughened surface, adhesion-promoting chemical treatment, and/or material deposited to improve wettability of the surface and/or adhesion to a cured insulator.

Provided is a micro-roughened electrodeposited copper foil, which comprises a micro-rough surface and multiple copper nodules. The micro-roughened electrodeposited copper foil has an Sdr of 0.01 to 0.08. With the surface characteristics, the electron path distance can be shortened, such that the micro-roughened electrodeposited copper foil can reduce the insertion loss of the copper clad laminate at high frequencies and have the desired peel strength.

Disclosed is a surface treated copper foil, which is capable of favorably reducing the transmission loss even when used in a high frequency circuit substrate, and after laminating with a resin, heating at a predetermined temperature for a predetermined time (at 180 C. for 10 days), the peel strength of the surface treated copper foil and the resin is favorable.

Also disclosed is a surface treated copper foil, comprising a copper foil, and a surface treatment layer on one or both sides of the copper foil, wherein the surface treatment layer has a primary particle layer, or has a primary particle layer and s secondary particle layer in this order from the side of the copper foil; the surface treatment layer contains Zn, a deposition amount of Zn in the surface treatment layer is 150 g/dm.sup.2 or more; the surface treatment layer does not contain Ni, or in the case where the surface treatment layer contains Ni, a deposition amount of Ni in the surface treatment layer is 800 g/dm.sup.2 or less; the surface treatment layer does not contain Co, or in the case where the surface treatment layer contains Co, a deposition amount of Co in the surface treatment layer is 3000 g/dm.sup.2 or less; and a ten point average roughness Rz of an outermost surface of the surface treatment layer is 1.5 m or less.

The present invention provides a surface-treated copper foil capable of imparting the profile shape of the substrate surface after removal of the copper foil, the profile shape maintaining fine wiring formability and achieving satisfactory adhesion of electroless copper plating coating. The present invention also provides a resin substrate provided with a profile shape of the surface maintaining fine wiring formability and achieving satisfactory adhesion of electroless copper plating coating. The surface-treated copper foil of the present invention is a surface-treated copper foil having a surface-treated layer formed on a copper foil, and the surface roughness Sz of the surface of the surface-treated layer is 2 to 6 m.

A printed circuit board includes first and second insulating layers, a wiring trace, a metal thin film, and a connection terminal. The wiring trace is formed on the first insulating layer. The metal thin film is formed on the wiring trace, and has a thickness larger than 0 nm and not more than 150 nm. The second insulating layer is formed on the first insulating layer to cover the metal thin film. The connection terminal is formed on the first insulating layer to be electrically connected to the wiring trace and exposed from the second insulating layer.

The problem of the invention is to provide a resin composite electrolytic copper foil having further improved heat resistance and improved plate adhesion strength when plated after desmear treatment in the work process of an additive method. The solution is to form a roughened surface having a plurality of minute projections, a surface roughness (Rz) within a range of 1.0 pm to 3.0 pm and a lightness value of not more than 30 on one surface of an electrolytic copper foil (A), and form a layer of a resin composition (B) containing a block copolymerized polyimide resin (a) having a structure that imide oligomers of a first structural unit and a second structural unit are bonded alternately and repeatedly on the roughened surface.

Methods for integrating copper-graphene laminate (CGL) in a multilayer PCB fabrication process and the resulting lamination stacks are disclosed. The methods include providing a core and applying a first graphene layer to the surface of the core. The methods further include applying a metal layer to the first graphene layer and applying a second graphene layer to the metal layer. Further, the methods include applying a photoresist layer to the second graphene layer and applying a protective layer to the photoresist layer. In some embodiments, the methods include applying a metallic plating to lamination stack. The methods further include drilling through the protective layer and at least one of a photoresist layer, the second graphene layer, the metal layer, the first graphene layer, and/or the core.

The present invention relates to a surface-treated copper foil, which has excellent adhesive strength with a resin substrate, shows low bending deformation after adhesion with a resin substrate, and is suitable as a high-frequency foil due to its low transmission loss, to a copper clad laminate comprising same, and to a printed wiring board.

A bonded body has a structure in which an insulating resin member made of an insulating resin and a metal part made of a metal are bonded. In the bonded body, a bonded interface between the insulating resin member and the metal part has an uneven shape including a protrusion in which the metal part protrudes toward an insulating resin member side and a recess in which the metal part retracts from the insulating resin member side, at least one of a kurtosis Rku of contour curve at the bonded interface of the metal part and a kurtosis Sku of contour surface at the bonded interface of the metal part is in a range of 2.75 or more and 6.00 or less, and an overhang rate that indicates a length ratio of regions overlapping in a lamination direction in a direction along the bonded interface is 7% or more.

A method of manufacturing a printed board, the method comprising: a first step of preparing a laminate having a base member in which a plurality of layers of glass cloths and a plurality of resin layers are alternately laminated, a first metal layer attached to one surface of the base member, and a second metal layer attached an opposite surface of the base member; a second step of forming a protective layer removable with a predetermined solvent on each of the first metal layer and the second metal layer; and a third step of irradiating the laminate on which the protective layer is formed with a laser beam to thereby form a through-hole penetrating in a thickness direction of the laminate.