In one example, a semiconductor device can comprise a unit substrate comprising a unit conductive structure and a unit dielectric structure, and an electronic component coupled to the unit conductive structure. The unit substrate can comprise a portion of a singulated subpanel substrate of a panel substrate. Other examples and related methods are also disclosed herein.

In one example, a semiconductor device can comprise a unit substrate comprising a unit conductive structure and a unit dielectric structure, and an electronic component coupled to the unit conductive structure. The unit substrate can comprise a portion of a singulated subpanel substrate of a panel substrate. Other examples and related methods are also disclosed herein.

A semiconductor package includes a first semiconductor chip on a base chip, a second semiconductor chip on the first semiconductor chip in a first direction, each of the first and second semiconductor chips including a TSV and being electrically connected to each other via the TSV, dam structures on the base chip and surrounding a periphery of the first semiconductor chip, a first adhesive film between the base chip and the first semiconductor chip, a portion of the first adhesive film filling a space between the first semiconductor chip and the dam structures, a second adhesive film between the first semiconductor chip and the second semiconductor chip, a portion of the second adhesive film overlapping the dam structures in the first direction, and an encapsulant encapsulating a portion of each of the dam structures, the first semiconductor chip, and the second semiconductor chip.

A semiconductor structure includes a first substrate; a second substrate, disposed over the first substrate; a die, disposed over the second substrate; a via, extending through the second substrate and electrically connecting to the die; a redistribution layer (RDL) disposed between the first substrate and the second substrate, including a dielectric layer, a first conductive structure electrically connecting to the via, and a second conductive structure laterally surrounding the first conductive structure; and an underfill material, partially surrounding the RDL, wherein one end of the second conductive structure exposed through the dielectric layer is entirely in contact with the underfill material.

A semiconductor structure includes a first substrate; a second substrate, disposed over the first substrate; a die, disposed over the second substrate; a via, extending through the second substrate and electrically connecting to the die; a redistribution layer (RDL) disposed between the first substrate and the second substrate, including a dielectric layer, a first conductive structure electrically connecting to the via, and a second conductive structure laterally surrounding the first conductive structure; and an underfill material, partially surrounding the RDL, wherein one end of the second conductive structure exposed through the dielectric layer is entirely in contact with the underfill material.

An integrated circuit (IC) package includes a first die with a first surface overlaying a substrate. The first die includes a first metal pad at a second surface opposing the first surface. The IC package also includes a dielectric layer having a first surface contacting the second surface of the first die. The IC package further includes a second die with a surface that contacts a second surface of the dielectric layer. The second die includes a second metal pad aligned with the first metal pad of the first die. A plane perpendicular to the second surface of the first die intersects the first metal pad and the second metal pad.

In various embodiments, a method for forming a bonded structure is disclosed. The method can comprise mounting a first integrated device die to a carrier. After mounting, the first integrated device die can be thinned. The method can include providing a first layer on an exposed surface of the first integrated device die. At least a portion of the first layer can be removed. A second integrated device die can be directly bonded to the first integrated device die without an intervening adhesive.

In various embodiments, a method for forming a bonded structure is disclosed. The method can comprise mounting a first integrated device die to a carrier. After mounting, the first integrated device die can be thinned. The method can include providing a first layer on an exposed surface of the first integrated device die. At least a portion of the first layer can be removed. A second integrated device die can be directly bonded to the first integrated device die without an intervening adhesive.

A semiconductor package includes a redistribution structure including a redistribution insulating layer and a redistribution pattern, a semiconductor chip provided on a first surface of the redistribution insulation layer and electrically connected to the redistribution pattern, and a lower electrode pad provided on a second surface opposite to the first surface of the redistribution insulating layer, the lower electrode pad including a first portion embedded in the redistribution insulating layer and a second portion protruding from the second surface of the redistribution insulating layer, wherein a thickness of the first portion of the lower electrode pad is greater than a thickness of the second portion of the lower electrode pad.

Disclosed is a semiconductor package comprising a semiconductor chip, a first chip pad on a bottom surface of the semiconductor chip and adjacent to a first lateral surface in a first direction of the semiconductor chip, the first lateral surface separated from the first chip pad from a plan view in a first direction, and a first lead frame coupled to the first chip pad. The first lead frame includes a first segment on a bottom surface of the first chip pad and extending from the first chip pad in a second direction opposite to the first direction and away from the first lateral surface of the semiconductor chip, and a second segment which connects to a first end of the first segment and then extends along the first direction to extend beyond the first lateral surface of the semiconductor chip after passing one side of the first chip pad, when viewed in the plan view.