The present invention relates to a method for producing a stretchable conductor and/or electrical connection including providing a stretchable substrate, a liquid metal, a conductive metal and an adhesion material in a same evaporator chamber; depositing the liquid metal; depositing the adhesion material; depositing the conductive metal; wherein the liquid metal, the conductive metal and the adhesion material are deposited by evaporation; and the deposition by evaporation is made in vacuum.

A film and a flexible metal-clad laminate obtained with the film. The laminate is improved in post-moisture absorption solderability. The film comprises a heat-resistant polyimide film and, disposed on at least one side thereof, an adhesive layer containing a thermoplastic polyimide. It is characterized in that the thermoplastic polyimide contained in the adhesive layer has crystallinity and that the film, when analyzed with a differential scanning calorimeter, has an endothermic peak attributable to the melting of the crystalline thermoplastic polyimide, the absolute value of the area of the peak being 4.0 mJ/mg or larger. The flexible metal-clad laminate is characterized by comprising the film and a metal layer disposed thereon.

A multilayer circuit board includes an upper surface and an opposing lower surface. An electrically insulating layer is disposed between the upper and lower surfaces. A plurality of electrically conductive upper and lower rear pads are disposed proximate a rear edge on the respective upper and lower surfaces for termination of a plurality of wires. The upper and lower rear pads include respective upper and lower rear ground pads substantially aligned with each other and configured for termination of ground wires. A plurality of electrically conductive front pads are disposed proximate a front edge for insertion into a connector and electrically connected to the upper and lower rear pads. An electrically conductive via extends from the upper rear ground pad to the lower rear ground pad and makes electrical and physical contact with each of the upper and lower rear ground pads.

A film thickness regulator and its manufacturing method, a regulating method, an evaporation apparatus are disclosed. The film thickness regulator comprises a frame and at least two deformable thin films disposed therein, the film surfaces of which are parallel to each other; each deformable thin film is provided with conductive structures and via holes for molecules of an evaporation coating material to pass through; when voltages are applied to the conductive structures of any two deformable thin films, due to the attraction or repulsion between the conductive structures, the two deformable thin films are moved, and the relative positions of the via holes of any two deformable thin films change, thus solving the problem that the uniformity of the thickness of the evaporation coating film is poor in the related art, and achieving the effect of improving the uniformity of the thickness of the evaporation coating film.

A graphene wiring structure of an embodiment has a substrate, a metal part on the substrate, multilayered graphene connected to the metal part, a first insulative film on the substrate, and a second insulative film on the substrate. The metal part is present between the first insulative film and the second insulative film. Edges of the multilayered graphene are connected to the metal part. A side face of the first insulative film vertical to the substrate opposes a side face of the second insulative film vertical to the substrate. A first outer face of the multilayered graphene is in physical contact with a first side face of the first insulative film vertical to the substrate. A second outer face of the multilayered graphene is in physical contact with a second side face of the second insulative film vertical to the substrate.

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.

A chip part includes a substrate, a first electrode and a second electrode which are formed apart from each other on the substrate and a circuit network which is formed between the first electrode and the second electrode. The circuit network includes a first passive element including a first conductive member embedded in a first trench formed in the substrate and a second passive element including a second conductive member formed on the substrate outside the first trench.

A film and a flexible metal-clad laminate obtained with the film. The laminate is improved in post-moisture absorption solderability. The film comprises a heat-resistant polyimide film and, disposed on at least one side thereof, an adhesive layer containing a thermoplastic polyimide. It is characterized in that the thermoplastic polyimide contained in the adhesive layer has crystallinity and that the film, when analyzed with a differential scanning calorimeter, has an endothermic peak attributable to the melting of the crystalline thermoplastic polyimide, the absolute value of the area of the peak being 4.0 mJ/mg or larger. The flexible metal-clad laminate is characterized by comprising the film and a metal layer disposed thereon.

A conductor includes a substrate, a first conductive layer disposed on the substrate and including two or more islands including graphene, and a second conductive layer disposed on the first conductive layer and including a conductive metal nanowire, wherein at least one of an upper surface and a lower surface of the islands including graphene includes a P-type dopant.

A mask frame assembly includes: a mask including a deposition pattern through which a deposition material is deposited to a deposition target; a frame to which the mask comprising the deposition pattern is combined; and a pattern position adjusting mechanism which is coupled to the frame and configured to apply a force to the frame such that a position of the deposition pattern of the mask combined to the frame is changed.