A display device includes first pixel circuit unit, second pixel circuit unit, third pixel circuit unit, and fourth pixel circuit unit spaced from one another, first pixel electrode on the first pixel circuit unit, second pixel electrode on the second pixel circuit unit, third pixel electrode on the third pixel circuit unit, fourth pixel electrode on the fourth pixel circuit unit, first light-emitting element electrically connected to the first pixel electrode, the first light-emitting element configured to emit first light, second light-emitting element electrically connected to the second pixel electrode, the second light-emitting element configured to emit second light, and third light-emitting element electrically connected to the third pixel electrode, the third light-emitting element configured to emit third light. A length of the first light-emitting element in a first direction is greater than each of a length of the second and third light-emitting elements in the first direction.

A semiconductor package includes a first connection structure, a first semiconductor chip on an upper surface of the first connection structure, a first molding layer on the upper surface of the first connection structure and surrounding the first semiconductor chip, a first bond pad on the first semiconductor chip, a first bond insulation layer on the first semiconductor chip and the first molding layer and surrounding the first bond pad, a second bond pad directly contacting the first bond pad, a second bond insulation layer surrounding the second bond pad; and a second semiconductor chip on the second bond pad and the second bond insulation layer.

A package structure includes the following: a logic die; and a plurality of core dies sequentially stacked on the logic die along a vertical direction, in which the plurality of core dies include a first core die and a second core die interconnected through a hybrid bonding member; the hybrid bonding member includes: a first contact pad located on a surface of the first core die; and a second contact pad located on a surface of the second core die; the first contact pad is in contact bonding with the second contact pad.

A semiconductor package includes a second semiconductor chip disposed on a first semiconductor chip. The first semiconductor chip includes a first semiconductor substrate, a through via, and a lower pad disposed on the through via. The lower pad includes a first segment and a second segment connected thereto. The first segment overlaps the through via. The second segment is disposed on an edge region of the first segment. The second segment has an annular shape. The second semiconductor chip includes a second semiconductor substrate, an upper pad disposed on a bottom surface of the second semiconductor substrate, and a connection terminal disposed between the upper and lower pads. The second segment at least partially surrounds a lateral surface of the upper pad. A level of a top surface of the second segment is higher than that of an uppermost portion of the connection terminal.

A chip package structure and a storage system are provided. The chip package structure includes a chipset, a first Re-Distribution Layer (RDL), and a bonding pad region. The chipset includes a plurality of chips distributed horizontally. The first RDL is disposed on a first surface of the chipset. The bonding pad region includes a plurality of bonding pads, the plurality of bonding pads are located on a side surface of the first RDL away from the chipset, and the plurality of bonding pads are connected to the plurality of chips through the first RDL.

A chip bonding method includes the following operations. A first chip is provided, which includes a first contact pad including a first portion lower than a first surface of a first substrate and a second portion higher than the first surface of the first substrate to form the stepped first contact pad. A second chip is provided, which includes a second contact pad including a third portion lower than a third surface of a second substrate and a fourth portion higher than the third surface of the second substrate to form the stepped second contact pad. The first chip and the second chip are bonded. The first portion of the first chip contacts with the fourth portion of the second chip, and the second portion of the first chip contacts with the third portion of the second chip.

In an embodiment a method includes providing the first component part with a partially exposed first insulating layer, a plurality of first through-vias and an exposed first contact layer structured in places and planarized in places, wherein the first through-vias are each laterally enclosed by the first insulating layer, and wherein the first contact layer partially covers the first insulating layer and completely covers the first through-vias; providing the second component part with a partially exposed second insulating layer, a plurality of second through-vias and an exposed second contact layer structured in places and planarized in places, wherein the second through-vias are each laterally enclosed by the second insulating layer, and wherein the second contact layer partially covers the second insulating layer and completely covers the second through-vias and joining the component parts such that the contact layers overlap each other thereby mechanically and electrically connecting the component parts to each other by a direct bonding process at the contact layers.

A semiconductor package is provided. The semiconductor package includes a first structure with a first insulating layer and a connection pad which penetrates through the first insulating layer; and a second structure with a second insulating layer bonded to the first insulating layer and a pad structure provided in a recess portion of the second insulating layer. The pad structure is bonded to and wider than the connection pad. The pad structure includes: an electrode pad disposed on a bottom surface of the recess portion; a solder disposed on the electrode pad and bonded to the connection pad; and a conductive support disposed to surround a side surface of the solder on the electrode pad and bonded to the first insulating layer. A melting point of the conductive support is higher than a melting point of the solder.

A display panel includes a substrate having a first surface and a second surface opposite to the first surface, a first pixel circuit arranged on the first surface of the substrate, a first through electrode passing through the substrate and being connected to the first pixel circuit, a first pad electrode arranged on the second surface of the substrate and being connected to the first through electrode, a common electrode arranged on the first surface of the substrate and arranged on the first pixel circuit, a second through electrode passing through the substrate and being connected to the common electrode, and a second pad electrode arranged on the second surface of the substrate and being connected to the second through electrode.

A semiconductor package may include vertically-stacked semiconductor chips and first, second, and third connection terminals connecting the semiconductor chips to each other. Each of the semiconductor chips may include a semiconductor substrate, an interconnection layer on the semiconductor substrate, penetration electrodes connected to the interconnection layer through the semiconductor substrate, and first, second, and third groups on the interconnection layer. The interconnection layer may include an insulating layer and first and second metal layers in the insulating layer. The first and second groups may be in contact with the second metal layer, and the third group may be spaced apart from the second metal layer. Each of the first and third groups may include pads connected to a corresponding one of the first and third connection terminals in a many-to-one manner. The second group may include pads connected to the second connection terminal in a one-to-one manner.