A first metal layer can be deposited over first dielectric material layers of a first substrate, and can be patterned into first bonding pads. A first low-k material layer can be formed over the first bonding pads. The first low-k material layer includes a low-k dielectric material such as a MOF dielectric material or organosilicate glass. A second semiconductor die including second bonding pads can be provided. The first bonding pads are bonded to the second bonding pads to form a bonded assembly.

A semiconductor device includes a first die, the first die including a first dielectric layer and a plurality of first bond pads formed within apertures in the first dielectric layer, and a second die bonded to the first die, the second die including a second dielectric layer and a plurality of second bond pads protruding from the second dielectric layer. The first die is bonded to the second die such that the plurality of second bond pads protrude into the apertures in the first dielectric layer to establish respective metallurgical bonds with the plurality of first bond pads. A reduction in the distance between the respective bond pads of the dies results in a lower temperature for establishing a hybrid bond.

A bond pad with micro-protrusions for direct metallic bonding. In one embodiment, a semiconductor device comprises a semiconductor substrate, a through-silicon via (TSV) extending through the semiconductor substrate, and a copper pad electrically connected to the TSV and having a coupling side. The semiconductor device further includes a copper element that projects away from the coupling side of the copper pad. In another embodiment, a bonded semiconductor assembly comprises a first semiconductor substrate with a first TSV and a first copper pad electrically coupled to the first TSV, wherein the first copper pad has a first coupling side. The bonded semiconductor assembly further comprises a second semiconductor substrate, opposite to the first semiconductor substrate, the second semiconductor substrate comprising a second copper pad having a second coupling side. A plurality of copper connecting elements extend between the first and second coupling sides of the first and second copper pads.

A bonded assembly includes a first semiconductor die containing a first substrate, first semiconductor devices, and first bonding pads that are electrically connected to a respective node of the first semiconductor devices, a second semiconductor die containing a second substrate, second semiconductor devices, and second bonding pads that are electrically connected to a respective node of the second semiconductor devices and bonded to a respective one of the first bonding pads, and at least one metal-organic framework (MOF) dielectric layer that laterally surrounds at least one of the first bonding pads and the second bonding pads.

An integrated structure intended to connect a plurality of semiconductor devices, the integrated structure including a substrate, a first face and a second face, the first face being intended to receive the semiconductor devices, the integrated structure including, at the first face, at least one routing level, the routing level or levels including: at least one first conductor routing track in a conductor material; and at least one first superconductor routing track made from a superconductor material.

A first metal layer can be deposited over first dielectric material layers of a first substrate, and can be patterned into first bonding pads. A first low-k material layer can be formed over the first bonding pads. The first low-k material layer includes a low-k dielectric material such as a MOF dielectric material or organosilicate glass. A second semiconductor die including second bonding pads can be provided. The first bonding pads are bonded to the second bonding pads to form a bonded assembly.

A bonded assembly includes a first semiconductor die containing a first substrate, first semiconductor devices, and first bonding pads that are electrically connected to a respective node of the first semiconductor devices, a second semiconductor die containing a second substrate, second semiconductor devices, and second bonding pads that are electrically connected to a respective node of the second semiconductor devices and bonded to a respective one of the first bonding pads, and at least one metal-oxide framework (MOF) dielectric layer that laterally surrounds at least one of the first bonding pads and the second bonding pads.

A bond pad with micro-protrusions for direct metallic bonding. In one embodiment, a semiconductor device comprises a semiconductor substrate, a through-silicon via (TSV) extending through the semiconductor substrate, and a copper pad electrically connected to the TSV and having a coupling side. The semiconductor device further includes a copper element that projects away from the coupling side of the copper pad. In another embodiment, a bonded semiconductor assembly comprises a first semiconductor substrate with a first TSV and a first copper pad electrically coupled to the first TSV, wherein the first copper pad has a first coupling side. The bonded semiconductor assembly further comprises a second semiconductor substrate, opposite to the first semiconductor substrate, the second semiconductor substrate comprising a second copper pad having a second coupling side. A plurality of copper connecting elements extend between the first and second coupling sides of the first and second copper pads.

A bond pad with micro-protrusions for direct metallic bonding. In one embodiment, a semiconductor device comprises a semiconductor substrate, a through-silicon via (TSV) extending through the semiconductor substrate, and a copper pad electrically connected to the TSV and having a coupling side. The semiconductor device further includes a copper element that projects away from the coupling side of the copper pad. In another embodiment, a bonded semiconductor assembly comprises a first semiconductor substrate with a first TSV and a first copper pad electrically coupled to the first TSV, wherein the first copper pad has a first coupling side. The bonded semiconductor assembly further comprises a second semiconductor substrate, opposite to the first semiconductor substrate, the second semiconductor substrate comprising a second copper pad having a second coupling side. A plurality of copper connecting elements extend between the first and second coupling sides of the first and second copper pads.

A semiconductor structure includes a first component and a second component bonded thereof. The first component includes a first dielectric layer, a first conductive structure, and a first filling material layer. The first conductive structure is in the first dielectric layer and includes a first conductive line and a first conductive pad thereon. The first filling material layer is on the first conductive line and surrounds the first conductive pad. The second component includes a second dielectric layer, a second conductive structure, and a second filling material layer. The second dielectric layer is bonded to the first dielectric layer. The second conductive structure is in the second dielectric layer, and includes a second conductive pad bonded to the first conductive pad. The second filling material layer surrounds the second conductive pad and in contact with a second conductive line on the second conductive pad.