A three-dimensional structure in which a wiring is provided on a surface is provided. At least a part of the surface of the three-dimensional structure includes an insulating layer containing filler. A recessed gutter for wiring is provided on the surface of the three-dimensional structure, and at least a part of a wiring conductor is embedded in the recessed gutter for wiring.

Provided is a wire-bonding apparatus (10) including: a capillary (28) through which a wire (30) inserted; and a controller (80). The controller (80) is configured to execute operations including: a disconnection operation, after the second bonding operation, of moving the capillary through which the wire is inserted within a horizontal plane vertical to an axial direction of the capillary while the wire is held in the clamped state, and thereby disconnecting the wire from the second bonding point; a preliminary bonding operation of feeding the wire from the second bonding point to a predetermined preliminary bonding point, and performing preliminary bonding at the preliminary bonding point; and a shaping operation, after the preliminary bonding operation, of shaping the wire projecting from a tip of the capillary into a predetermined flexed shape.

Provided is a wire-bonding apparatus (10) including: a capillary (28) through which a wire (30) inserted; and a controller (80). The controller (80) is configured to execute operations including: a disconnection operation, after the second bonding operation, of moving the capillary through which the wire is inserted within a horizontal plane vertical to an axial direction of the capillary while the wire is held in the clamped state, and thereby disconnecting the wire from the second bonding point; a preliminary bonding operation of feeding the wire from the second bonding point to a predetermined preliminary bonding point, and performing preliminary bonding at the preliminary bonding point; and a shaping operation, after the preliminary bonding operation, of shaping the wire projecting from a tip of the capillary into a predetermined flexed shape.

To provide an interlayer filler composition capable of forming a cured adhesive layer sufficiently cured and excellent in adhesion without letting voids be formed in the cured adhesive layer while minimizing leak out of a filler. An interlayer filler composition for a semiconductor device, comprises an epoxy resin (A), a curing agent (B), a filler (C) and a flux (D), has a minimum value of its viscosity at from 100 to 150° C. and satisfies the following formulae (1) and (2) simultaneously:

10<η50/η120<500   (1)

1,000<η150/η120   (2)

(wherein η50, η120 and η150 represent the viscosities at 50° C., 120° C. and 150° C., respectively, of the interlayer filler composition).

To provide an interlayer filler composition capable of forming a cured adhesive layer sufficiently cured and excellent in adhesion without letting voids be formed in the cured adhesive layer while minimizing leak out of a filler. An interlayer filler composition for a semiconductor device, comprises an epoxy resin (A), a curing agent (B), a filler (C) and a flux (D), has a minimum value of its viscosity at from 100 to 150° C. and satisfies the following formulae (1) and (2) simultaneously:

10<η50/η120<500   (1)

1,000<η150/η120   (2)

(wherein η50, η120 and η150 represent the viscosities at 50° C., 120° C. and 150° C., respectively, of the interlayer filler composition).

A semiconductor device according to the present invention includes a semiconductor chip, an electrode pad made of a metal material containing aluminum and formed on a top surface of the semiconductor chip, an electrode lead disposed at a periphery of the semiconductor chip, a bonding wire having a linearly-extending main body portion and having a pad bond portion and a lead bond portion formed at respective ends of the main body portion and respectively bonded to the electrode pad and the electrode lead, and a resin package sealing the semiconductor chip, the electrode lead, and the bonding wire, the bonding wire is made of copper, and the entire electrode pad and the entire pad bond portion are integrally covered by a water-impermeable film.

A process for electrically connecting contact surfaces of electronic components by capillary wedge bonding a round wire of 8 to 80 μm to the contact surface of a first electronic component, forming a wire loop, and stitch bonding the wire to the contact surface of a second electronic component, wherein the wire comprises a wire core having a silver or silver-based wire core with a double-layered coating comprised of a 1 to 50 nm thick inner layer of nickel or palladium and an adjacent 5 to 200 nm thick outer layer of gold.

A process for electrically connecting contact surfaces of electronic components by capillary wedge bonding a round wire of 8 to 80 μm to the contact surface of a first electronic component, forming a wire loop, and stitch bonding the wire to the contact surface of a second electronic component, wherein the wire comprises a wire core having a silver or silver-based wire core with a double-layered coating comprised of a 1 to 50 nm thick inner layer of nickel or palladium and an adjacent 5 to 200 nm thick outer layer of gold.

An epoxy resin composition for encapsulating a semiconductor device and a semiconductor device encapsulated by the epoxy resin composition, the composition including a base resin; a filler; a colorant; and a thermochromic pigment, wherein a color of the thermochromic pigment is irreversibly changed when a temperature thereof exceeds a predetermined temperature.

A display device and a method of manufacturing the same are provided. The display device includes a first electrode disposed on a substrate, an adhesive auxiliary layer disposed on the first electrode and including a self-assembled monolayer, a light emitting element disposed on the adhesive auxiliary layer, and a contact electrode disposed between the adhesive auxiliary layer and the light emitting element. The light emitting element includes a first semiconductor layer, a second semiconductor layer disposed on the first semiconductor layer, and an intermediate layer disposed between the first semiconductor layer and the second semiconductor layer.