The present disclosure relates to the field of fabricating microelectronic packages, wherein magnetic particles distributed within a solder paste may be used to form a magnetic intermetallic compound interconnect. The intermetallic compound interconnect may be exposed to a magnetic field, which can heat a solder material to a reflow temperature for attachment of microelectronic components comprising the microelectronic packages.

The present disclosure relates to the field of fabricating microelectronic packages, wherein magnetic particles distributed within a solder paste may be used to form a magnetic intermetallic compound interconnect. The intermetallic compound interconnect may be exposed to a magnetic field, which can heat a solder material to a reflow temperature for attachment of microelectronic components comprising the microelectronic packages.

Provided are a hybrid bonding structure, a solder paste composition, a semiconductor device, and a method of manufacturing the semiconductor device. The hybrid bonding structure includes a solder ball and a solder paste bonded to the solder ball. The solder paste includes a transient liquid phase. The transient liquid phase includes a core and a shell on a surface of the core. A melting point of the shell may be lower than a melting point of the core. The core and the shell are configured to form an intermetallic compound in response to the transient liquid phase at least partially being at a temperature that is within a temperature range of about 20° C. to about 190° C.

Provided are a hybrid bonding structure, a solder paste composition, a semiconductor device, and a method of manufacturing the semiconductor device. The hybrid bonding structure includes a solder ball and a solder paste bonded to the solder ball. The solder paste includes a transient liquid phase. The transient liquid phase includes a core and a shell on a surface of the core. A melting point of the shell may be lower than a melting point of the core. The core and the shell are configured to form an intermetallic compound in response to the transient liquid phase at least partially being at a temperature that is within a temperature range of about 20° C. to about 190° C.

Implementations of semiconductor packages may include a first die including a plurality of contact pads, a second die including a plurality of contact pads, a plurality of solder interconnects bonding the plurality of contact pads of the first die to the plurality of contact pads of the second die, and a plurality of magnetic particles each coated in an oxide included in each of the plurality of solder interconnects.

Implementations of semiconductor packages may include a first die including a plurality of contact pads, a second die including a plurality of contact pads, a plurality of solder interconnects bonding the plurality of contact pads of the first die to the plurality of contact pads of the second die, and a plurality of magnetic particles each coated in an oxide included in each of the plurality of solder interconnects.

A bump-forming film is used for forming, on a semiconductor device such as a bumpless IC chip, bumps which are low in cost and can achieve stable conduction reliability. The bump-forming film is configured such that conductive fillers for bumps are arranged regularly in a planar view in an insulating adhesive resin layer. The regular arrangement has a periodic repeating unit in the longitudinal direction of the film. The straight line which connects one ends of the conductive fillers for bumps in the thickness direction of the film is substantially parallel to the surface of the film.

A bump-forming film is used for forming, on a semiconductor device such as a bumpless IC chip, bumps which are low in cost and can achieve stable conduction reliability. The bump-forming film is configured such that conductive fillers for bumps are arranged regularly in a planar view in an insulating adhesive resin layer. The regular arrangement has a periodic repeating unit in the longitudinal direction of the film. The straight line which connects one ends of the conductive fillers for bumps in the thickness direction of the film is substantially parallel to the surface of the film.

Implementations of semiconductor packages may include a first die including a plurality of contact pads, a second die including a plurality of contact pads, a plurality of solder interconnects bonding the plurality of contact pads of the first die to the plurality of contact pads of the second die, and a plurality of magnetic particles each coated in an oxide included in each of the plurality of solder interconnects.

Implementations of semiconductor packages may include a first die including a plurality of contact pads, a second die including a plurality of contact pads, a plurality of solder interconnects bonding the plurality of contact pads of the first die to the plurality of contact pads of the second die, and a plurality of magnetic particles each coated in an oxide included in each of the plurality of solder interconnects.