This method for producing a structure wherein base materials are bonded by atomic diffusion comprises: a step for applying a liquid resin on the base material; a step for smoothing the surface of the liquid resin by surface tension; a step for forming a resin layer by curing; a step for forming a metal thin film on the resin layer; a step for forming a metal thin film on the base material; and a step for bringing the metal thin film of the base material and the metal thin film of the base material into close contact with each other, thereby bonding the metal thin film of the resin layer and the metal thin film of the base material with each other by atomic diffusion.

This method for producing a structure wherein base materials are bonded by atomic diffusion comprises: a step for applying a liquid resin on the base material; a step for smoothing the surface of the liquid resin by surface tension; a step for forming a resin layer by curing; a step for forming a metal thin film on the resin layer; a step for forming a metal thin film on the base material; and a step for bringing the metal thin film of the base material and the metal thin film of the base material into close contact with each other, thereby bonding the metal thin film of the resin layer and the metal thin film of the base material with each other by atomic diffusion.

Semiconductor devices may include a die including a semiconductor material. The die may include a first active surface including first integrated circuitry on a first side of the die and a second active surface including second integrated circuitry on a second, opposite side of the die. In some embodiments, the die may include two die portions: a first die portion including the first active surface and a second die portion including the second active surface. The first die portion and the second die portion may be joined together with the first active surface facing away from the second active surface.

Semiconductor devices may include a die including a semiconductor material. The die may include a first active surface including first integrated circuitry on a first side of the die and a second active surface including second integrated circuitry on a second, opposite side of the die. In some embodiments, the die may include two die portions: a first die portion including the first active surface and a second die portion including the second active surface. The first die portion and the second die portion may be joined together with the first active surface facing away from the second active surface.

Provided is a semiconductor module, including: a semiconductor chip including a semiconductor substrate and a metal electrode provided above the semiconductor substrate; a protective film provided above the metal electrode; a plated layer provided above the metal electrode, having at least a part being in a height identical to the protective film; a solder layer provided above the plated layer; and a lead frame provided above the solder layer, wherein the plated layer is provided in a range not in contact with the protective film.

Provided is a semiconductor module, including: a semiconductor chip including a semiconductor substrate and a metal electrode provided above the semiconductor substrate; a protective film provided above the metal electrode; a plated layer provided above the metal electrode, having at least a part being in a height identical to the protective film; a solder layer provided above the plated layer; and a lead frame provided above the solder layer, wherein the plated layer is provided in a range not in contact with the protective film.

An IC package including an integrated circuit die having a major surface and one or more solder bumps located on the major surface in at least one corner region of the major surface and a substrate having a surface, the surface including bump pads thereon. The major surface of the integrated circuit die faces the substrate surface, the one or more solder bumps are bonded to individual ones of the bump pads to thereby form a bond joint, the major surface of the integrated circuit die has a footprint area of at least about 400 mm.sup.2. A ratio of a coefficient of thermal expansion of the substrate (CTE.sub.sub) to a coefficient of thermal expansion of the integrated circuit die (CTE.sub.die) is at least about 3:1. A method of manufacturing an IC package is also disclosed.

An IC package including an integrated circuit die having a major surface and one or more solder bumps located on the major surface in at least one corner region of the major surface and a substrate having a surface, the surface including bump pads thereon. The major surface of the integrated circuit die faces the substrate surface, the one or more solder bumps are bonded to individual ones of the bump pads to thereby form a bond joint, the major surface of the integrated circuit die has a footprint area of at least about 400 mm.sup.2. A ratio of a coefficient of thermal expansion of the substrate (CTE.sub.sub) to a coefficient of thermal expansion of the integrated circuit die (CTE.sub.die) is at least about 3:1. A method of manufacturing an IC package is also disclosed.

A semiconductor structure includes a conductive line, a pad layer, and a barrier layer. The conductive line is embedded in a multi-level interconnect structure. The pad layer is over the conductive line. The barrier layer is between the conductive line and the pad layer. The pad layer is electrically connected to the conductive line through the barrier layer, and the barrier layer includes a first poly-crystalline layer and a second poly-crystalline layer. A boundary is between the first poly-crystalline layer and the second poly-crystalline layer.

A semiconductor structure includes a conductive line, a pad layer, and a barrier layer. The conductive line is embedded in a multi-level interconnect structure. The pad layer is over the conductive line. The barrier layer is between the conductive line and the pad layer. The pad layer is electrically connected to the conductive line through the barrier layer, and the barrier layer includes a first poly-crystalline layer and a second poly-crystalline layer. A boundary is between the first poly-crystalline layer and the second poly-crystalline layer.