A semiconductor package includes a first substrate, a first chip structure and a second chip structure spaced apart from each other on the first substrate, a gap region being defined between the first and second chip structures, and a heat dissipation member covering the first chip structure, the second chip structure, and the first substrate, the heat dissipation member including a first trench in an inner top surface of the heat dissipation member, wherein the first trench vertically overlaps with the gap region and has a width greater than a width of the gap region, and wherein the first trench vertically overlaps with at least a portion of a top surface of the first chip structure or a portion of a top surface of the second chip structure.

A semiconductor package includes a first substrate, a first chip structure and a second chip structure spaced apart from each other on the first substrate, a gap region being defined between the first and second chip structures, and a heat dissipation member covering the first chip structure, the second chip structure, and the first substrate, the heat dissipation member including a first trench in an inner top surface of the heat dissipation member, wherein the first trench vertically overlaps with the gap region and has a width greater than a width of the gap region, and wherein the first trench vertically overlaps with at least a portion of a top surface of the first chip structure or a portion of a top surface of the second chip structure.

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).

Various apparatus and methods are disclosed. In one aspect, a method of manufacturing a thermal interface material on a semiconductor chip is provided. The method includes placing a preform of a combination of a first metal and a second metal on one of the semiconductor chip or a lid. The preform is liquid phase sintered to cause the combination to evolve to an equilibrium composition and bond to the semiconductor chip.

Various apparatus and methods are disclosed. In one aspect, a method of manufacturing a thermal interface material on a semiconductor chip is provided. The method includes placing a preform of a combination of a first metal and a second metal on one of the semiconductor chip or a lid. The preform is liquid phase sintered to cause the combination to evolve to an equilibrium composition and bond to the semiconductor chip.

The present invention relates to a conductive composition containing a conductive metal powder and a resin component, in which the conductive metal powder contains at least a metal flake having a crystalline structure in which a metal crystal grows in a flake shape, and the resin component contains an aromatic amine skeleton.

The present invention relates to a conductive composition containing a conductive metal powder and a resin component, in which the conductive metal powder contains at least a metal flake having a crystalline structure in which a metal crystal grows in a flake shape, and the resin component contains an aromatic amine skeleton.

Provided is an inkjet adhesive which is applied using an inkjet device, wherein the adhesive can suppress generation of voids in the adhesive layer and, after bonding, can enhance adhesiveness, moisture-resistant adhesion reliability, and cooling/heating cycle reliability. An inkjet adhesive according to the present invention comprises a photocurable compound, a photo-radical initiator, a thermosetting compound having one or more cyclic ether groups or cyclic thioether groups, and a compound capable of reacting with the thermosetting compound, and the compound capable of reacting with the thermosetting compound contains aromatic amine.

Provided is an inkjet adhesive which is applied using an inkjet device, wherein the adhesive can suppress generation of voids in the adhesive layer and, after bonding, can enhance adhesiveness, moisture-resistant adhesion reliability, and cooling/heating cycle reliability. An inkjet adhesive according to the present invention comprises a photocurable compound, a photo-radical initiator, a thermosetting compound having one or more cyclic ether groups or cyclic thioether groups, and a compound capable of reacting with the thermosetting compound, and the compound capable of reacting with the thermosetting compound contains aromatic amine.