The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a first semiconductor structure, a second semiconductor structure, a through semiconductor via, and an insulation layer. The first semiconductor structure includes a first circuit layer and a first main bonding layer in the first circuit layer and substantially coplanar with a front face of the first circuit layer. The second semiconductor structure includes a second circuit layer on the first circuit layer and a second main bonding layer in the second circuit layer, and topologically aligned with and contacted to the first main bonding layer. The through semiconductor via is along the second semiconductor structure and the first and second main bonding layer, and extending to the first circuit layer. The insulation layer is positioned on a sidewall of the through semiconductor via.

A semiconductor package includes: a semiconductor substrate; a through electrode that penetrates the semiconductor substrate; a first pad disposed on the through electrode; and a dielectric structure disposed on the semiconductor substrate, wherein a lower portion of the dielectric structure at least partially surrounds the through electrode, wherein an upper portion of the dielectric structure at least partially surrounds the first pad, wherein the dielectric structure includes: a first dielectric pattern; an etch stop pattern disposed on the first dielectric pattern; and a second dielectric pattern spaced apart from the first dielectric pattern by the etch stop pattern, wherein the first pad is in contact with the through electrode, the first dielectric pattern, the etch stop pattern, and second dielectric pattern, and wherein a top surface of the through electrode is at a level higher than a level of a top surface of the first dielectric pattern.

A display device may include: a substrate including a display area and a non-display area; and a pixel located in the display area, the pixel having an emission area and a pixel circuit area. The pixel may include: at least one transistor located in the pixel circuit area; a first pad electrode and a second pad electrode spaced from each other and located in the emission area, the first pad electrode and the second pad electrode being electrically connected to the at least one transistor; a first through hole penetrating one region of the first pad electrode; a second through hole penetrating one region of the second pad electrode; and a light emitting element located in the emission area, the light emitting element being electrically connected to the first pad electrode and the second pad electrode.

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 method of manufacturing a semiconductor chip is provided. The method includes: forming a plurality of bonding pads on a semiconductor wafer, sequentially forming an insulating layer and a polishing stop film on the semiconductor wafer to cover the plurality of bonding pads, the insulating layer and the polishing stop film having a plurality of convex portions corresponding to upper portions of the plurality of bonding pads, polishing the plurality of convex portions using the polishing stop film to expose upper surfaces of the plurality of bonding pads, and removing the polishing stop film.

A bonded assembly includes a first semiconductor die that includes first metallic bonding structures embedded within a first bonding-level dielectric layer, and a second semiconductor die that includes second metallic bonding structures embedded within a second bonding-level dielectric layer and bonded to the first metallic bonding structures by metal-to-metal bonding. One of the first metallic bonding structures a pad portion, and a via portion located between the pad portion and the first semiconductor device, the via portion having second tapered sidewalls.

A semiconductor package includes a first semiconductor chip comprising a semiconductor substrate and a redistribution pattern on a top surface of the semiconductor substrate, the redistribution pattern having a hole exposing an inner sidewall of the redistribution pattern, a second semiconductor chip on a top surface of the first semiconductor chip, and a bump structure disposed between the first semiconductor chip and the second semiconductor chip. The bump structure is disposed in the hole and is in contact with the inner sidewall of the redistribution pattern.

A device transfer substrate includes a plurality of recesses, wherein each of the plurality of recesses includes a first region having a shape of a first figure, a second region having a shape of a second figure, and an overlapping region formed as a portion of the first region partially overlaps a portion of the second region, wherein a maximum width of the overlapping region in a direction intersecting with a straight line passing through a center of the first figure and a center of the second figure is less than a diameter or a diagonal length of the first figure and less than a diameter or a diagonal length of the second figure.

A semiconductor structure, a method for forming a semiconductor structure, a stacked structure, and a wafer stacking method are provided. The semiconductor structure includes: a semiconductor substrate; a first dielectric layer on a surface of a semiconductor substrate; a top metal layer, in which the top metal layer is located in the first dielectric layer, and the top metal layer penetrates through the first dielectric layer; and a buffer layer located between the top metal layer and the first dielectric layer.

A semiconductor package includes main pad structures and dummy pad structures between a first semiconductor chip and a second semiconductor chip. The main pad structures include first main pad structures apart from one another on the first semiconductor chip and second main pad structures placed apart from one another on the second semiconductor chip and bonded to the first main pad structures. The dummy pad structures include first dummy pad structures including first dummy pads apart from one another on the first semiconductor chip and first dummy capping layers on the first dummy pads, and second dummy pad structures including second dummy pads apart from one another on the second semiconductor chip and second dummy capping layers on the second dummy pads. The first dummy capping layers of the first dummy pad structures are not bonded to the second dummy capping layers of the second dummy pad structures.