An adhesive for a semiconductor, comprising an epoxy resin, a curing agent, and a compound having a group represented by the following formula (1): ##STR00001##
wherein R.sup.1 represents an electron-donating group.

Die reconstitution methods and dies with reconstituted contact bumps are described. In an embodiment, a die reconstitution method includes reconstituting a plurality of dies including first contact bumps of a first type, partially removing the first contact bumps, and forming second contact bumps of a second type on top of the partially removed first contact bumps, where the second type is different than the first type.

A semiconductor die includes a substrate including a semiconductor surface including circuitry electrically connected to die bond pads that include a first die bond pad exposed by a passivation layer, a top dielectric layer over the passivation layer, and a metal layer electrically connected to the first die bond pad. A pillar is on the metal layer over the first die bond pad, and a solder cap is on a top side of the pillar. The solder cap includes an essentially vertical sidewall portion generally beginning at a top corner edge of the pillar.

A semiconductor package includes a bottom substrate and a top substrate space apart from the bottom substrate such that the bottom substrate and the top substrate define a gap therebetween. A logic die is mounted on a top surface of the bottom substrate in a flip-chip fashion. The logic die has a thickness of 125-350 micrometers. The logic die comprises an active front side, a passive rear side, and an input/output pad provided on the active front side. A plurality of copper cored solder balls is disposed between the bottom substrate and the top substrate around the logic die to electrically connect the bottom substrate with the top substrate. A sealing resin fills in the gap between the bottom substrate and the top substrate and seals the logic die and the plurality of copper cored solder balls in the gap.

A fan-out wafer level package is disclosed, which includes: a redistribution layer; a semiconductor chip electrically connected with the redistribution layer through a bump; a protective member protecting the semiconductor chip, wherein a part of the protective member is removed such that the upper surface of the semiconductor chip is exposed in order to dissipate heat and prevent warpage; and an interconnector disposed outside the semiconductor chip at substantially the same level and having a lower part electrically connected with the redistribution layer and an upper part not being covered with the protective member, wherein the interconnector includes a metal core solder ball, the metal core solder ball includes a metal core and a solder buffer between the metal core and the protective member, and the metal core is formed of a combination of copper (Cu), nickel (Ni), and silver (Ag).

A method of forming an integrated circuit device includes forming a bump structure on a substrate, wherein the bump structure has a top surface and a sidewall surface, and the substrate has a surface region exposed by the bump structure. The method further includes depositing a non-metal protection layer on the top surface and the sidewall surface of the bump structure and the surface region of the substrate. The method further includes removing the non-metal protection layer from the top surface of the bump structure, wherein a remaining portion of the non-metal protection layer forms an L-shaped protection structure, and a top surface of the remaining portion of the non-metal protection layer is farther from the substrate than a top surface of the bump structure.

fan-out wafer level package is disclosed, which comprises: a redistribution layer; a semiconductor chip electrically connected with the redistribution layer through a bump; a protective member protecting the semiconductor chip, wherein a part of the protective member is removed such that the upper surface of the semiconductor chip is exposed in order to dissipate heat and prevent warpage; and an interconnector disposed outside the semiconductor chip at substantially the same level and having a lower part electrically connected with the redistribution layer and an upper part not being covered with the protective member, wherein the interconnector includes a metal core solder ball, the metal core solder ball includes a metal core and a solder buffer between the metal core and the protective member, and the metal core is formed of a combination of copper (Cu), nickel (Ni), and silver (Ag).

A semiconductor die includes a substrate including a semiconductor surface including circuitry electrically connected to die bond pads that include a first die bond pad exposed by a passivation layer, a top dielectric layer over the passivation layer, and a metal layer electrically connected to the first die bond pad. A pillar is on the metal layer over the first die bond pad, and a solder cap is on a top side of the pillar. The solder cap includes an essentially vertical sidewall portion generally beginning at a top corner edge of the pillar.

A semiconductor die includes a substrate including a semiconductor surface including circuitry electrically connected to die bond pads that include a first die bond pad exposed by a passivation layer, a top dielectric layer over the passivation layer, and a metal layer electrically connected to the first die bond pad. A pillar is on the metal layer over the first die bond pad, and a solder cap is on a top side of the pillar. The solder cap includes an essentially vertical sidewall portion generally beginning at a top corner edge of the pillar.

A method of forming an integrated circuit device includes forming a bump structure on a substrate, wherein the bump structure has a top surface and a sidewall surface, and the substrate has a surface region exposed by the bump structure. The method further includes depositing a non-metal protection layer on the top surface and the sidewall surface of the bump structure and the surface region of the substrate. The method further includes removing the non-metal protection layer from the top surface of the bump structure, wherein a remaining portion of the non-metal protection layer forms an L-shaped protection structure, and a top surface of the remaining portion of the non-metal protection layer is farther from the substrate than a top surface of the bump structure.