A chip package includes a first interconnection scheme; a plurality of first metal contacts under and on the first interconnection scheme and at a bottom surface of the chip package; a first semiconductor IC chip over the first interconnection scheme; a first connector over the first interconnection scheme and at a same horizontal level as the first semiconductor IC chip, wherein the first connector comprises a first substrate and a plurality of first through vias vertically extending through the first substrate of the first connector; a first polymer layer over the first interconnection scheme, wherein the first polymer layer has a top surface coplanar with a top surface of the first semiconductor IC chip, a top surface of the first substrate of the first connector and a top surface of each of the plurality of first through vias; and a second interconnection scheme on the top surface of the first polymer layer, the top surface of the first semiconductor IC chip, the top surface of the first connector and the top surface of each of the plurality of first through vias, wherein the second interconnection scheme comprises a plurality of second metal contacts at a top surface of the chip package.

A semiconductor device having a three-dimensional structure includes a first wafer including a first bonding pad on one surface thereof; a second wafer including a second bonding pad, which is bonded to the first bonding pad, on one surface thereof bonded to the one surface of the first wafer; a plurality of anti-warpage grooves on the one surface of the first wafer, and laid out in a stripe shape; and a plurality of anti-warpage ribs on the one surface of the second wafer and coupled respectively to the plurality of anti-warpage grooves, and laid out in a stripe shape.

A semiconductor structure and a manufacturing method thereof are provided. A semiconductor structure includes top, bottom, and middle tiers. The bottom tier includes a first interconnect structure overlying a first semiconductor substrate, and a first front-side bonding structure overlying the first interconnect structure. The middle tier interposed between and electrically coupled to the top and bottom tiers includes a second interconnect structure overlying a second semiconductor substrate, a second front-side bonding structure interposed between the top tier and the second interconnect structure, and a back-side bonding structure interposed between the second semiconductor substrate and the first front-side bonding structure. A bonding feature of the second front-side bonding structure includes a first bonding via in contact with the second interconnect structure, a first bonding contact overlying the first bonding via, and a barrier layer interface between a bottom of the first bonding contact and a top of the first bonding via.

A semiconductor device includes a first layer including a plurality of first pads, and a second layer including a plurality of second pads. The plurality of first pads are bonded to the plurality of second pads, respectively. At least one of the first pads or the second pads continuously surrounds an insulating portion.

The present disclosure provides a method for preparing a semiconductor device with a composite dielectric structure. The method includes forming a photoresist pattern structure over a first semiconductor die. The method also includes forming a second dielectric layer surrounding the photoresist pattern structure, and removing the photoresist pattern structure to form a first opening in the second dielectric layer. The method further includes forming dielectric spacers along sidewalls of the first opening, and forming an interconnect structure surrounded by the dielectric spacers. In addition, the method includes bonding a second semiconductor die to the second dielectric layer. The second semiconductor die includes a second conductive pad facing the interconnect structure, and the second conductive pad is electrically connected to the first conductive pad of the first semiconductor die through the interconnect structure.

A semiconductor device structure is provided. The semiconductor device structure includes a first polymer layer formed between a first substrate and a second substrate, and a first conductive layer formed over the first polymer. The semiconductor device includes a first through substrate via (TSV) formed over the first conductive layer, and the conductive layer is in direct contact with the first TSV and the first polymer.

A method of packaging a semiconductor device includes: bonding a ball at an end of a bond wire to a bond pad of a semiconductor device die in an aperture of a shielding layer of the semiconductor device; and sealing the part of the bond pad exposed by the aperture of the shielding layer by deforming the ball of the bond wire to fill the aperture of the shielding layer. The aperture of the shielding layer includes an edge wall, and exposes a part of the bond pad. The shielding layer covers a remaining part of the bond pad. The aperture of the shielding layer is completely filled with the ball of the bond wire, thereby deforming the edge wall of the shielding layer.

A semiconductor package includes a first semiconductor chip including a first semiconductor layer, a first through-electrode that penetrates through the first semiconductor layer, a first bonding pad connected to the first through-electrode, and a first insulating bonding layer, and a second semiconductor chip on the first semiconductor chip and including a second semiconductor layer, a second bonding pad bonded to the first bonding pad, and a second insulating bonding layer bonded to the first insulating bonding layer, wherein the first insulating bonding layer includes a first insulating material, the second insulating bonding layer includes a first insulating layer that forms a bonding interface with the first insulating bonding layer and a second insulating layer on the first insulating layer, the first insulating layer includes a second insulating material, different from the first insulating material, and the second insulating layer includes a third insulating material, different from the second insulating material.

A first semiconductor device includes a first substrate including a first electrode and a second electrode at a first surface side of the first substrate opposite to a light incident surface side of the first substrate; and a second substrate including a photodiode, a transfer transistor, and a third electrode and a fourth electrode at a first surface side of the second substrate facing the first surface of the first substrate, and a plurality of transistors.

A semiconductor package includes a substrate, a first semiconductor chip disposed on the substrate, and a second semiconductor chip disposed on a top surface of the first semiconductor chip. The first semiconductor chip includes a conductive pattern disposed on the top surface of the first semiconductor chip and a first protective layer covering the top surface of the first semiconductor chip and at least partially surrounds the conductive pattern. The second semiconductor chip includes a first pad that contacts a first through electrode on a bottom surface of the second semiconductor chip. A second protective layer surrounds the first pad and covers the bottom surface of the second semiconductor chip. A third protection layer fills a first recess defined in the second protective layer to face the inside of the second protective layer. The first protective layer and the third protective layer contact each other.