A semiconductor package includes a redistribution structure including an insulating layer having an upper surface and a lower surface, a redistribution pad and a redistribution pattern on the lower surface of the insulating layer and electrically connected to each other, and a passivation layer on the lower surface of the insulating layer and having an opening exposing at least a portion of the redistribution pad; a semiconductor chip on the redistribution structure and including a connection pad electrically connected to the redistribution pad; an encapsulant on the redistribution structure and encapsulating the semiconductor chip; and a connection bump and a dummy bump on the passivation layer, wherein the redistribution pattern has a width narrower than a width of the redistribution pad, the connection bump vertically overlaps the redistribution pad, and the dummy bump vertically overlaps the redistribution pattern.

A semiconductor package includes a redistribution structure including an insulating layer having an upper surface and a lower surface, a redistribution pad and a redistribution pattern on the lower surface of the insulating layer and electrically connected to each other, and a passivation layer on the lower surface of the insulating layer and having an opening exposing at least a portion of the redistribution pad; a semiconductor chip on the redistribution structure and including a connection pad electrically connected to the redistribution pad; an encapsulant on the redistribution structure and encapsulating the semiconductor chip; and a connection bump and a dummy bump on the passivation layer, wherein the redistribution pattern has a width narrower than a width of the redistribution pad, the connection bump vertically overlaps the redistribution pad, and the dummy bump vertically overlaps the redistribution pattern.

Provided is a semiconductor device including: a bed having a bed surface; a semiconductor chip having a bottom surface larger than the bed surface, the semiconductor chip being provided such that a center of the bottom surface is disposed above the bed surface and the bottom surface having a first end and a second end; a joint material provided between the bed surface and the bottom surface; a plate-like first wire having a first surface and provided such that the first surface faces the first end; a plate-like second wire having a second surface and provided such that the second surface faces the second end; a first insulating film having a third surface and a fourth surface provided on an opposite side of the third surface, the third surface being in contact with the first end, the fourth surface being in contact with the first surface; and a second insulating film having a fifth surface and a sixth surface provided on an opposite side of the fifth surface, the fifth surface being in contact with the second end, the sixth surface being in contact with the first surface.

Provided is a semiconductor device including: a bed having a bed surface; a semiconductor chip having a bottom surface larger than the bed surface, the semiconductor chip being provided such that a center of the bottom surface is disposed above the bed surface and the bottom surface having a first end and a second end; a joint material provided between the bed surface and the bottom surface; a plate-like first wire having a first surface and provided such that the first surface faces the first end; a plate-like second wire having a second surface and provided such that the second surface faces the second end; a first insulating film having a third surface and a fourth surface provided on an opposite side of the third surface, the third surface being in contact with the first end, the fourth surface being in contact with the first surface; and a second insulating film having a fifth surface and a sixth surface provided on an opposite side of the fifth surface, the fifth surface being in contact with the second end, the sixth surface being in contact with the first surface.

Provided is a composition for conductive adhesive. The composition for conductive adhesive includes a heterocyclic compound containing oxygen and including at least one of an epoxy group or oxetane group, a reductive curing agent including an amine group and a carboxyl group, and a photoinitiator, wherein a mixture ratio of the heterocyclic compound and the reductive curing agent satisfies Conditional Expression 1 below.

0.5≤(b+c)/a≤1.5, a>0, b≥0, c>0  [Conditional Expression 1] where ‘a’ denotes a mole number of a heterocycle in the heterocyclic compound, ‘b’ denotes a mole number of hydrogen bonded to a nitrogen atom of the amine group included in the reductive curing agent, and ‘c’ denotes a mole number of the carboxyl group.

Provided is a composition for conductive adhesive. The composition for conductive adhesive includes a heterocyclic compound containing oxygen and including at least one of an epoxy group or oxetane group, a reductive curing agent including an amine group and a carboxyl group, and a photoinitiator, wherein a mixture ratio of the heterocyclic compound and the reductive curing agent satisfies Conditional Expression 1 below.

0.5≤(b+c)/a≤1.5, a>0, b≥0, c>0  [Conditional Expression 1] where ‘a’ denotes a mole number of a heterocycle in the heterocyclic compound, ‘b’ denotes a mole number of hydrogen bonded to a nitrogen atom of the amine group included in the reductive curing agent, and ‘c’ denotes a mole number of the carboxyl group.

A fabrication method of an electronic device bonding structure includes the following steps. A first electronic component including a first conductive bonding portion is provided. A second electronic component including a second conductive bonding portion is provided. A first organic polymer layer is formed on the first conductive bonding portion. A second organic polymer layer is formed on the second conductive bonding portion. Bonding is performed on the first electronic component and the second electronic component through the first conductive bonding portion and the second conductive bonding portion, such that the first electronic component and the second electronic component are electrically connected. The first organic polymer layer and the second organic polymer layer diffuse into the first conductive bonding portion and the second conductive bonding portion after the bonding. An electronic device bonding structure is also provided.

A fabrication method of an electronic device bonding structure includes the following steps. A first electronic component including a first conductive bonding portion is provided. A second electronic component including a second conductive bonding portion is provided. A first organic polymer layer is formed on the first conductive bonding portion. A second organic polymer layer is formed on the second conductive bonding portion. Bonding is performed on the first electronic component and the second electronic component through the first conductive bonding portion and the second conductive bonding portion, such that the first electronic component and the second electronic component are electrically connected. The first organic polymer layer and the second organic polymer layer diffuse into the first conductive bonding portion and the second conductive bonding portion after the bonding. An electronic device bonding structure is also provided.

A semiconductor package includes a redistribution structure including an insulating layer having an upper surface and a lower surface, a redistribution pad and a redistribution pattern on the lower surface of the insulating layer and electrically connected to each other, and a passivation layer on the lower surface of the insulating layer and having an opening exposing at least a portion of the redistribution pad; a semiconductor chip on the redistribution structure and including a connection pad electrically connected to the redistribution pad; an encapsulant on the redistribution structure and encapsulating the semiconductor chip; and a connection bump and a dummy bump on the passivation layer, wherein the redistribution pattern has a width narrower than a width of the redistribution pad, the connection bump vertically overlaps the redistribution pad, and the dummy bump vertically overlaps the redistribution pattern.

A semiconductor package includes a redistribution structure including an insulating layer having an upper surface and a lower surface, a redistribution pad and a redistribution pattern on the lower surface of the insulating layer and electrically connected to each other, and a passivation layer on the lower surface of the insulating layer and having an opening exposing at least a portion of the redistribution pad; a semiconductor chip on the redistribution structure and including a connection pad electrically connected to the redistribution pad; an encapsulant on the redistribution structure and encapsulating the semiconductor chip; and a connection bump and a dummy bump on the passivation layer, wherein the redistribution pattern has a width narrower than a width of the redistribution pad, the connection bump vertically overlaps the redistribution pad, and the dummy bump vertically overlaps the redistribution pattern.