A bonding element and a method for manufacturing the same thereof are provide, wherein the method comprises the following steps: providing a carrier substrate; forming a first metal layer on the carrier substrate; forming a first insulating layer on the first metal layer, wherein the first insulating layer includes a first through hole; forming a first passivation layer and a first conductive layer in the first through hole, wherein the first passivation layer and the first conductive layer in the first through hole form a first connecting bump; forming a first substrate on the first connection bump and the first insulating layer; removing the carrier substrate and the first metal layer to form a first sub-bonding element; and connecting the first sub-bonding element and a second sub-bonding element with a surface of the first passivation of the first connection bump to form the bonding element.

A semiconductor package structure includes a first die, a second die disposed on the first die, and a bonding pad structure. The first die includes a semiconductor substrate, an interconnect structure disposed on the first semiconductor substrate, a passivation layer disposed on the interconnect structure, and a test pad disposed on the passivation layer. The test pad includes a contact region that extends through the passivation layer and electrically contacts the interconnect structure, and a bonding recess that overlaps with the contact region in a vertical direction perpendicular to a plane of the first semiconductor substrate. The bonding pad structure bonding pad structure electrically connects the first die and the second die and directly contacts at least a portion of the bonding recess.

Embodiments disclosed herein include electronic packages and methods of fabricating electronic packages. In an embodiment, an electronic package comprises an interposer, where a cavity passes through the interposer, and a nested component in the cavity. In an embodiment, the electronic package further comprises a die coupled to the interposer by a first interconnect and coupled to the nested component by a second interconnect. In an embodiment, the first and second interconnects comprise a first bump, a bump pad over the first bump, and a second bump over the bump pad.

Embodiments disclosed herein include electronic packages and methods of fabricating electronic packages. In an embodiment, an electronic package comprises an interposer, where a cavity passes through the interposer, and a nested component in the cavity. In an embodiment, the electronic package further comprises a die coupled to the interposer by a first interconnect and coupled to the nested component by a second interconnect. In an embodiment, the first and second interconnects comprise a first bump, a bump pad over the first bump, and a second bump over the bump pad.

A semiconductor package structure includes a first die, a second die disposed on the first die, and a bonding pad structure. The first die includes a semiconductor substrate, an interconnect structure disposed on the first semiconductor substrate, a passivation layer disposed on the interconnect structure, and a test pad disposed on the passivation layer. The test pad includes a contact region that extends through the passivation layer and electrically contacts the interconnect structure, and a bonding recess that overlaps with the contact region in a vertical direction perpendicular to a plane of the first semiconductor substrate. The bonding pad structure electrically connects the first die and the second die and directly contacts at least a portion of the bonding recess.

In some embodiments, the present disclosure relates to a method including forming an interconnect structure over a substrate. A bond pad may be coupled to the interconnect structure, and a polymeric material may be deposited over the bond pad. In some embodiments, the method further includes performing a patterning process to remove a portion of the polymeric material to form an opening in the polymeric material. The opening directly overlies and exposes the bond pad. Further, the method includes a first cleaning process. The polymeric material is cured to form a polymeric protection layer, and a second cleaning process is performed.

A bonding element and a method for manufacturing the same thereof are provide, wherein the method comprises the following steps: providing a carrier substrate; forming a first metal layer on the carrier substrate; forming a first insulating layer on the first metal layer, wherein the first insulating layer includes a first through hole; forming a first passivation layer and a first conductive layer in the first through hole, wherein the first passivation layer and the first conductive layer in the first through hole form a first connecting bump; forming a first substrate on the first connection bump and the first insulating layer; removing the carrier substrate and the first metal layer to form a first sub-bonding element; and connecting the first sub-bonding element and a second sub-bonding element with a surface of the first passivation of the first connection bump to form the bonding element.

A semiconductor package structure includes a first die, a second die disposed on the first die, and a bonding pad structure. The first die includes a semiconductor substrate, an interconnect structure disposed on the first semiconductor substrate, a passivation layer disposed on the interconnect structure, and a test pad disposed on the passivation layer. The test pad includes a contact region that extends through the passivation layer and electrically contacts the interconnect structure, and a bonding recess that overlaps with the contact region in a vertical direction perpendicular to a plane of the first semiconductor substrate. The bonding pad structure electrically connects the first die and the second die and directly contacts at least a portion of the bonding recess.

Embodiments of molded packages and corresponding methods of manufacture are provided. In an embodiment of a molded package, the molded package includes a laser-activatable mold compound having a plurality of laser-activated regions which are plated with an electrically conductive material to form metal pads and/or metal traces at a first side of the laser-activatable mold compound. A semiconductor die embedded in the laser-activatable mold compound has a plurality of die pads. An interconnect electrically connects the plurality of die pads of the semiconductor die to the metal pads and/or metal traces at the first side of the laser-activatable mold compound.

In some embodiments, the present disclosure relates to a method including forming an interconnect structure over a substrate. A bond pad may be coupled to the interconnect structure, and a polymeric material may be deposited over the bond pad. In some embodiments, the method further includes performing a patterning process to remove a portion of the polymeric material to form an opening in the polymeric material. The opening directly overlies and exposes the bond pad. Further, the method includes a first cleaning process. The polymeric material is cured to form a polymeric protection layer, and a second cleaning process is performed.