The present invention relates to a semiconductor structure and method of forming the same. The semiconductor structure includes a first substrate, a first adhesive/bonding stack on the surface of first substrate, wherein the first adhesive/bonding stack includes at least one first adhesive layer and at least one first bonding layer. The material of first bonding layer includes dielectrics such as silicon, nitrogen and carbon, the material of first adhesive layer includes dielectrics such as silicon and nitrogen, and the first adhesive/bonding stack of semiconductor structure is provided with higher bonding force in bonding process.

A first semiconductor die includes first semiconductor devices located over a first substrate, first interconnect-level dielectric material layers embedding first metal interconnect structures and located on the first semiconductor devices, and a first pad-level dielectric layer located on the first interconnect-level dielectric material layers and embedding first bonding pads. Each of the first bonding pads includes a first proximal horizontal surface and at least one first distal horizontal surface that is more distal from the first substrate than the first proximal horizontal surface is from the first substrate and has a lesser total area than a total area of the first proximal horizontal surface. A second semiconductor die including second bonding pads that are embedded in a second pad-level dielectric layer can be bonded to a respective distal surface of the first bonding pads.

A first conductive material having a first hardness is disposed within a recess or opening of a microelectronic component, in a first preselected pattern, and forms a first portion of an interconnect structure. A second conductive material having a second hardness different from the first hardness is disposed within the recess or opening in a second preselected pattern and forms a second portion of the interconnect structure.

A first semiconductor die includes first semiconductor devices located over a first substrate, first interconnect-level dielectric material layers embedding first metal interconnect structures and located on the first semiconductor devices, and a first pad-level dielectric layer located on the first interconnect-level dielectric material layers and embedding first bonding pads. Each of the first bonding pads includes a first proximal horizontal surface and at least one first distal horizontal surface that is more distal from the first substrate than the first proximal horizontal surface is from the first substrate and has a lesser total area than a total area of the first proximal horizontal surface. A second semiconductor die including second bonding pads that are embedded in a second pad-level dielectric layer can be bonded to a respective distal surface of the first bonding pads.

A first semiconductor die includes first semiconductor devices located over a first substrate, first interconnect-level dielectric material layers embedding first metal interconnect structures and located on the first semiconductor devices, and a first pad-level dielectric layer located on the first interconnect-level dielectric material layers and embedding first bonding pads. Each of the first bonding pads includes a first proximal horizontal surface and at least one first distal horizontal surface that is more distal from the first substrate than the first proximal horizontal surface is from the first substrate and has a lesser total area than a total area of the first proximal horizontal surface. A second semiconductor die including second bonding pads that are embedded in a second pad-level dielectric layer can be bonded to a respective distal surface of the first bonding pads.

A connection electrode includes a first metal film, a second metal film, a mixed layer, and an extraction electrode. The second metal film is located on the first metal film, and the extraction electrode is located on the second metal film. The mixed layer includes a mix of metal particles of the first and second metal films. As viewed in a first direction in which the first metal film and the second metal film are on top of each other, at least a portion of the mixed layer is in a first region that overlaps a bonding plane between the extraction electrode and the second metal film.

The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a substrate, a pad structure positioned above the substrate, and a top groove positioned on a top surface of the pad structure. The method for fabricating the semiconductor device includes forming a pad structure over a substrate and forming a top groove on a top surface of the pad structure.

A semiconductor device is provided that includes a dielectric layer, a bond pad, a passivation layer and a planar barrier. The bond pad is positioned in the dielectric layer. The passivation layer is positioned over the dielectric layer and has an opening over the bond pad. The planar barrier is positioned on the bond pad.

A pad structure is formed on an IC die and includes a first conductive layer, a dielectric layer, a second conductive layer and a passivation layer. The first conductive layer is formed on an upper surface of the IC die and having a hollow portion. The dielectric layer covers the first conductive layer. The second conductive layer is formed on the dielectric layer and electrically connected to the first conductive layer. The passivation layer covers the second conductive layer and has an opening exposing the second conductive layer for receiving a bonding wire.

A semiconductor device assembly includes a substrate and a die coupled to the substrate, the die including a first contact pad electrically coupled to a first circuit on the die including an active circuit element, a first TSV electrically coupling the first contact pad to a first backside contact pad, and a second contact pad electrically coupled to a second circuit including only passive circuit elements. The substrate includes a substrate contact electrically coupled to the first and second contact pads. The assembly can further include a second die including a third contact pad electrically coupled to a third circuit including a second active circuit element, and a fourth contact pad electrically coupled to a fourth circuit on the second die including only passive circuit elements. The substrate contact can be electrically coupled to the third contact pad, but electrically disconnected from the fourth contact pad.