The present application provides a semiconductor structure having a conductive pad with a protrusion, and a manufacturing method of the semiconductor structure. The semiconductor structure includes a first die including a first substrate, a first dielectric layer over the first substrate, a first conductive pad at least partially exposed through the first dielectric layer, a first bonding layer over the first dielectric layer, and a first via extending through the first bonding layer and coupled to the first conductive pad; and a second die including a second bonding layer bonded to the first bonding layer, a second substrate over the second bonding layer, and a second via extending through the second substrate and the second bonding layer, wherein a first contact surface area between the first bonding layer and the second via is substantially greater than a second contact surface area between the first via and the second via.

Semiconductor devices including one or more interfacing segments patterned within an outer protective layer and associated systems and methods are disclosed herein. The one or more interfacing segments may provide attachment interfaces/surfaces for connection pads. The one or more interfacing segments or a portion thereof may remain uncovered or exposed and provide warpage control for the corresponding semiconductor device.

In an embodiment, a method includes: forming an integrated circuit die, forming the integrated circuit die comprising: forming an interconnect structure over a front side of a substrate, the interconnect structure comprising a photonic component and a heater, the substrate comprising a first dielectric layer over a semiconductor substrate; removing the semiconductor substrate to expose a back side of the first dielectric layer; forming a second dielectric layer over the back side of the first dielectric layer; forming a redistribution structure over the second dielectric layer, the redistribution structure extending through the first dielectric layer and the second dielectric layer to be electrically connected to the interconnect structure; and forming an electrical connector over the redistribution structure; attaching a package substrate to the electrical connector; and attaching an electronic die over the interconnect structure and over the front side of the package substrate.

An embodiment is a method including forming a first interconnect structure over a first substrate, the first interconnect structure including dielectric layers and metallization patterns therein, the metallization patterns including a top metal layer including top metal structures, forming a passivation layer over the top metal structures of the first interconnect structure, forming a first opening through the passivation layer, forming a probe pad in the first opening and over the passivation layer, the probe pad being electrically connected to the first top metal structure, performing a circuit probe test on the probe pad, removing the probe pad, and forming a bond pad and a bond via in dielectric layers over the passivation layer, the bond pad and bond via being electrically coupled to a second top metal structure of the top metal structures and a third top metal structure of the top metal structures.

A semiconductor device includes front and back side structures on first and second surfaces of a substrate, respectively, and first and second through electrodes penetrating the substrate. The front side structure includes a circuit device, a first front side conductive pattern at a first level, a second front side conductive pattern at a second level, a lower insulating structure, and first to third insulating structures. The back side structure includes a first and a second back side conductive pattern on the same level. The first through electrode contacts the first back side conductive pattern and the first front side conductive pattern. The second through electrode contacts the second back side conductive pattern and the second front side conductive pattern. The first front side conductive pattern penetrates the second insulating structure and at least a portion of the third insulating structure.

A semiconductor package comprises: a first substrate; a first pad on a top surface of the first substrate; a first conductive pattern on a bottom surface of the first pad; and a semiconductor chip on the top surface of the first substrate, wherein the semiconductor chip comprises: a semiconductor substrate; an interconnection layer on a bottom surface of the semiconductor substrate, the interconnection layer comprising an interconnection pattern; and a bonding pad on a bottom surface of the interconnection pattern, wherein the bonding pad is directly bonded to the first pad, wherein a width of the interconnection pattern is larger than a width of the bonding pad, wherein a width of the first conductive pattern is smaller than a width of the first pad, and wherein the interconnection pattern and the bonding pad comprise different materials.

The semiconductor device may include a substrate, a first insulating layer on a bottom surface of the substrate, an interconnection structure in the first insulating layer, a second insulating layer on a bottom surface of the first insulating layer, and a plurality of lower pads provided in the second insulating layer. Each lower pad may be provided such that a width of a top surface thereof is smaller than a width of a bottom surface thereof. The lower pads may include first, second, and third lower pads. In a plan view, the first and third lower pads may be adjacent to center and edge portions of the substrate, respectively, and the second lower pad may be disposed therebetween. A width of a bottom surface of the second lower pad may be smaller than that of the first lower pad and may be larger than that of the third lower pad.