A semiconductor structure includes a first device structure, an oxide based layer, and a first auxiliary bond pad. The first device structure includes a first bonding layer. The oxide based layer is bonded to the first bonding layer of the first device structure. The first auxiliary bond pad is at an interface between the oxide based layer and the first bonding layer of the first device structure.

A semiconductor chip including a semiconductor substrate having a first surface and a second surface and having an active layer in a region adjacent to the first surface, a first through electrode penetrating at least a portion of the semiconductor substrate and connected to the active layer, a second through electrode located at a greater radial location from the center of the semiconductor substrate than the first through electrode, penetrating at least a portion of the semiconductor substrate, and connected to the active layer. The semiconductor chip also including a first chip connection pad having a first height and a first width, located on the second surface of the semiconductor substrate, and connected to the first through electrode, and a second chip connection pad having a second height greater than the first height and a second width greater than the first width, located on the second surface of the semiconductor substrate, and connected to the second through electrode.

Devices and techniques including process steps make use of recesses in conductive interconnect structures to form reliable low temperature metallic bonds. A fill layer is deposited into the recesses prior to bonding. First conductive interconnect structures are bonded at ambient temperatures to second metallic interconnect structures using direct bonding techniques, with the fill layers in the recesses in one or both of the first and second interconnect structures.

A semiconductor structure and a manufacturing method thereof are provided. The semiconductor structure includes an interconnect structure disposed over a semiconductor substrate, contact pads disposed on the interconnect structure, a dielectric structure disposed on the interconnect structure and covering the contact pads, bonding connectors covered by the dielectric structure and landing on the contact pads, and a dummy feature covered by the dielectric structure and laterally interposed between adjacent two of the bonding connectors. Top surfaces of the bonding connectors are substantially coplanar with a top surface of the dielectric structure, and the bonding connectors are electrically coupled to the interconnect structure through the contact pads.

The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a first semiconductor structure and a first connecting structure, wherein the first connecting structure includes a first connecting insulating layer positioned on the first semiconductor structure, two first conductive layers positioned in the first connecting insulating layer, and a first porous layer positioned between the two first conductive layers. A porosity of the first porous layer is between about 25% and about 100%.

Method of assembly of a first element (I) and a second element (II) each having an assembly surface, at least one of the assembly surfaces comprising recessed metal portions (6, 106) surrounded by dielectric materials (4, 104) comprising: A) a step to bring the two assembly surfaces into contact without application of pressure such that direct bonding is obtained between the assembly surfaces, said first and second assemblies (I, II) forming a stack with a given thickness (e), B) a heat treatment step of said stack during which the back faces (10, 110) of the first (I) and the second (II) elements are held in position so that they are held at a fixed distance (E) between the given stack thickness+/−2 nm.

In an embodiment, a device includes: a dielectric layer over an active surface of a semiconductor substrate; a conductive via in the dielectric layer, the conductive via including a first copper layer having a non-uniform grain orientation; and a bonding pad over the conductive via and in the dielectric layer, the bonding pad including a second copper layer having a uniform grain orientation, a top surface of the bonding pad being coplanar with a top surface of the dielectric layer.

A method of manufacturing a semiconductor structure includes following operations: moving a die towards a wafer by a pick-and-place tool, the pick-and-place tool including an infrared (IR) detection device attached to the pick-and-place tool in a fixed relationship; aligning the die with the wafer by using the IR detection device; and bonding the die to the wafer.

A semiconductor device includes a first stacked body and a second stacked body bonded to the first stacked body. The first stacked body includes a first pad provided on a first bonding surface to which the first stacked body and the second stacked body are bonded. The second stacked body includes a second pad bonded to the first pad on the first bonding surface. When a direction from the first stacked body to the second stacked body is defined as a first direction, a direction intersecting with the first direction is defined as a second direction, a direction intersecting with the first direction and the second direction is defined as a third direction, dimensions of the first pad and the second pad in the third direction are defined as PX1 and PX2, respectively, and dimensions of the first pad and the second pad in the second direction are defined as PY1 and PY2, respectively, the dimensions of the first pad and the second pad satisfy at least one of Equations (1) and (2) below.

PX1>PY1   (1)

PY2>PX2   (2)

The present application discloses a semiconductor device and a method for fabricating the semiconductor device. The semiconductor device includes a first semiconductor structure and a first connecting structure, wherein the first connecting structure includes a first connecting insulating layer positioned on the first semiconductor structure, two first conductive layers positioned in the first connecting insulating layer, and a first porous layer positioned between the two first conductive layers. A porosity of the first porous layer is between about 25% and about 100%. The first semiconductor structure includes a plurality of first composite conductive features, wherein at least one of the plurality of first composite conductive features includes a first protection liner, a first graphene liner in the first protection liner and a first core conductor in the first graphene liner.