A circuit board comprising a substrate and a circuit trace. The substrate includes a surface etched via ion milling over a circuit area such that the surface has an increased roughness. The circuit trace forms portions of an electronic circuit and may be created from a thin conductive film deposited on the surface within the circuit area. The circuit trace adheres more strongly to the roughened substrate surface, which prevents the circuit trace from peeling or becoming delaminated from the substrate surface.

The present disclosure concerns an electrical circuit pattern on a substrate, as well as a method and system for forming same. In a typical embodiment, a light pattern is projected through a transparent layer to cause a patterned release of adhesion between a continuous material layer and the transparent layer. A release layer adhered to the patterned material layer is pulled off the substrate to separate the material having lower adhesion while leaving the material that was not exposed to form the electrical circuit pattern thereon.

A manufacturing method of an electronic product is provided. The manufacturing method includes following steps. Firstly, a conductive circuit is formed on a first surface of a supporting body. Then, an electronic element is disposed on the conductive circuit, and the electronic element is electrically connected to the conductive circuit. Then, a film layer is disposed on the conductive circuit having the electronic element, and the electronic element and the conductive circuit are wrapped between the supporting body and the film layer.

A circuit board includes a substrate, a first dielectric layer, an adhesive layer, a second dielectric layer, and a conductive line. The first dielectric layer is disposed on the substrate. The adhesive layer is bonded to the first dielectric layer and has at least one through hole. The through hole has an inner wall. The second dielectric layer is disposed on the adhesive layer and has a second through hole communicated with the first through hole. The conductive line is located in the second through hole of the second dielectric layer and is in contact with the inner wall of the adhesive layer.

A laminate that includes a metal layer that is not easily separated from a substrate, a method for producing the laminate, and a method for forming a fine conductive pattern that exhibits high conductivity, are disclosed. The peel strength of a metal layer included in a laminate that includes a polymer layer provided between a substrate and the metal layer is improved by implementing a structure in which the metal that forms the metal layer is chemically bonded to COO that extends from the polymer main chain that forms the polymer layer at the interface between the metal layer and the polymer layer. A fine conductive pattern that exhibits high conductivity can be formed by applying UV light to a pattern area of an insulating film formed on a substrate, and applying an ink prepared by dispersing metal nanoparticles in a solvent to the substrate to effect adhesion and aggregation of the ink in the pattern area, the surface of the metal nanoparticles being protected by an organic molecule layer.

A method produces a multilayer element with a substrate and at least one conductor structure connected in an areal manner to the substrate, which has first regions of electrically conductive material, which is present in accordance with a prescribed pattern, while electrically non-conductive second regions lie between the first regions.

An electronic device and a method of manufacturing the electronic device are provided. The method of manufacturing the electronic device includes the following steps: providing a circuit board; performing a first pre-bending step on the circuit board so that the circuit board is bent to have a first radius of curvature; providing a back frame having a second radius of curvature; attaching the circuit board having the first radius of curvature to the back frame through an adhesive. A difference between the first radius of curvature and the second radius of curvature is within 10%.

A laminate contains conductive circuit patterns, a substrate material, and an adhesive pattern or other bond. Each conductive circuit pattern and the substrate material are interconnected by the adhesive pattern or other bond, having its size and shape substantially matching the main outlines of each conductive circuit pattern. Each conductive circuit pattern has thin lines and thin interline spaces, patterned on top of the adhesive pattern or other bond by a removal of conductive material, such that the circuit pattern's thin interline spaces may have residues of the adhesive patterns or other bond. Outside the conductive circuit patterns' main outlines, the substrate material is substantially void of an adhesive or other bond, with the exception of edge areas of the main outlines.

A manufacturing method of an electronic product is provided. The manufacturing method includes following steps. Firstly, a conductive circuit is formed on a first surface of a supporting body. Then, an electronic element is disposed on the conductive circuit, and the electronic element is electrically connected to the conductive circuit. Then, a film layer is disposed on the conductive circuit having the electronic element, and the electronic element and the conductive circuit are wrapped between the supporting body and the film layer.

A manufacturing method of an electronic product is provided. The manufacturing method includes following steps. Firstly, a conductive circuit is formed on a first surface of a supporting body. Then, an electronic element is disposed on the conductive circuit, and the electronic element is electrically connected to the conductive circuit. Then, a film layer is disposed on the conductive circuit having the electronic element, and the electronic element and the conductive circuit are wrapped between the supporting body and the film layer.