A bonding pad for an integrated circuit is formed by a stack of bonding pad layers. A lower bonding pad layer is supported by a bonding pad support layer. A passivation layer extends over the lower bonding pad layer and includes a passivation opening at a portion of an upper surface of the lower bonding pad layer. An upper bonding pad layer rests on said passivation layer and in the passivation opening in contact with the lower bonding pad layer.

A display device is provided. The display device comprising: a substrate including a display area and a pad area, a first conductive layer disposed on the substrate and including a first signal line disposed in the display area, a buffer layer disposed on the first conductive layer, a semiconductor layer disposed on the buffer layer in the display area, a gate insulating film disposed on the semiconductor layer, a second conductive layer disposed on the gate insulating film and including a gate electrode overlapping the semiconductor layer in the display area, a first electrode of a transistor disposed to overlap one side of the semiconductor layer in the display area and connected to the first signal line through a contact hole penetrating through the buffer layer and the gate insulating film, and a second electrode of the transistor disposed to overlap the other side of the semiconductor layer in the display area, a first pad disposed on the buffer layer in the pad area and exposed by a pad opening, a first insulating layer disposed on the second conductive layer and the first pad, and a light emitting element disposed on the first insulating layer in the display area, wherein the first pad is formed of the first conductive layer or the second conductive layer.

A display device includes a substrate including a pad area, a first conductive pattern disposed in the pad area on the substrate, an insulating layer disposed on the first conductive pattern and overlapping the first conductive pattern, second conductive patterns disposed on the insulating layer, spaced apart from each other, and contacting the first conductive pattern through contact holes formed in the insulating layer, and a third conductive pattern disposed on the second conductive patterns and contacting the insulating layer.

A semiconductor device including a semiconductor substrate including an electrode; a wire connected to the electrode; a first insulating film including a first opening that partially exposes the wire; a base portion that is connected to a portion of the wire exposed via the first opening, and that includes a conductor including a recess corresponding to the first opening; and a solder film on a surface of the base portion. Solder included in the solder film is fused by a first heat treatment, and the recess is filled with the fused solder.

A packaged semiconductor die includes a semiconductor die coupled to a die pad. The semiconductor die has a front side containing copper leads, a copper seed layer coupled to the copper leads, and a nickel alloy coating coupled to the copper seed layer. The nickel alloy includes tungsten and cerium (NiWCe). The packaged semiconductor die may also include wire bonds coupled between leads of a lead frame and the copper leads of the semiconductor die. In addition, the packaged semiconductor die may be encapsulated in molding compound. A method for fabricating a packaged semiconductor die. The method includes forming a copper seed layer over the copper leads of the semiconductor die. In addition, the method includes coating the copper seed layer with a nickel alloy. The method also includes singulating the semiconductor wafer to create individual semiconductor die and placing the semiconductor die onto a die pad of a lead frame.

A semiconductor device includes a semiconductor part, first and second electrodes, and first and second protective films. The first electrode is provided on the semiconductor part. The first protective film is provided on the semiconductor part and covers an outer edge of the first electrode. The second electrode is provided on the first electrode. The second electrode includes an outer edge partially covering the first protective film. The second protective film is provided on the semiconductor part and covers the first protective film and the outer edge of the second electrode.

A semiconductor package includes a substrate, a first insulation layer, a conductive via and a conductive trace. The substrate includes a conductive component. The first insulation layer is formed on the substrate and having a first through hole exposing the conductive component. The conductive via is formed within the first through hole. The conductive trace is directly connected to the conductive via which is located directly above the first through hole.

A method for fabricating a semiconductor product includes forming a dielectric layer over a top level metallization layer of a semiconductor process wafer. The dielectric layer is patterned using a grayscale mask process to define a contact pad opening in the dielectric layer, thereby producing a patterned dielectric layer in which the contact pad opening is aligned to a contact pad defined in the top level metallization layer. A metal layer is deposited over the patterned dielectric layer, including within the contact pad opening. A portion of the metal layer is removed by a chemical mechanical polishing (CMP) process, with a remaining portion of the metal layer having a sloped sidewall.

A plasma-based ashing process for surface conditioning and material modification to improve bond pad metallurgical properties as well as semiconductor device performance. Residue materials generated in a removal process at a process layer having recessed features with Ni—Pd surfaces are ashed in a plasma reactor to reduce defect count and improve surface conditioning associated with bond pads of the semiconductor device.

A semiconductor device includes a first interconnect structure over first substrate, a first bonding layer over the first interconnect structure, multiple first bonding pads disposed in a first region of the first bonding layer, the first bonding pads having a first pitch, and multiple second bonding pads disposed in a second region of the first bonding layer, the second region extending between a first edge of the first bonding layer and the first region, the second bonding pads having the first pitch, the multiple second bonding pads including multiple pairs of adjacent second bonding pads, wherein the second bonding pads of each respective pair are connected by a first metal line.