A technique relates to a structure. An under-bump-metallization (UBM) structure includes a first region and a second region. The first and second regions are laterally positioned in the UBM structure. The first region includes a superconducting material. A substrate opposes the UBM structure. A superconducting solder material joins the first region to the substrate and the second region to the substrate.

A technique relates to a structure. An under-bump-metallization (UBM) structure includes a first region and a second region. The first and second regions are laterally positioned in the UBM structure. The first region includes a superconducting material. A substrate opposes the UBM structure. A superconducting solder material joins the first region to the substrate and the second region to the substrate.

Integrated circuit cell architectures including both front-side and back-side structures. One or more of back-side implant, semiconductor deposition, dielectric deposition, metallization, film patterning, and wafer-level layer transfer is integrated with front-side processing. Such double-side processing may entail revealing a back side of structures fabricated from the front-side of a substrate. Host-donor substrate assemblies may be built-up to support and protect front-side structures during back-side processing. Front-side devices, such as FETs, may be modified and/or interconnected during back-side processing. Back-side devices, such as FETs, may be integrated with front-side devices to expand device functionality, improve performance, or increase device density.

Integrated circuit cell architectures including both front-side and back-side structures. One or more of back-side implant, semiconductor deposition, dielectric deposition, metallization, film patterning, and wafer-level layer transfer is integrated with front-side processing. Such double-side processing may entail revealing a back side of structures fabricated from the front-side of a substrate. Host-donor substrate assemblies may be built-up to support and protect front-side structures during back-side processing. Front-side devices, such as FETs, may be modified and/or interconnected during back-side processing. Back-side devices, such as FETs, may be integrated with front-side devices to expand device functionality, improve performance, or increase device density.

First and second contacts are formed on first and second wafers from disparate first and second conductive materials, at least one of which is subject to surface oxidation when exposed to air. A layer of oxide-inhibiting material is disposed over a bonding surface of the first contact and the first and second wafers are positioned relative to one another such that a bonding surface of the second contact is in physical contact with the layer of oxide-inhibiting material. Thereafter, the first and second contacts and the layer of oxide-inhibiting material are heated to a temperature that renders the first and second contacts and the layer of oxide-inhibiting material to liquid phases such that at least the first and second contacts alloy into a eutectic bond.

A semiconductor device structure and method for manufacturing the same are provided. The semiconductor device structure includes a substrate, a dielectric structure, a pad, a conductive structure, and a buffer structure. The dielectric structure is disposed on the substrate. The pad is embedded in the dielectric structure. The conductive structure is disposed on the pad. The buffer structure is disposed on the pad and separates the conductive structure from the dielectric structure. A coefficient of thermal expansion (CTE) of the buffer structure ranges between a CTE of the dielectric structure and a CTE of the conductive structure.

A semiconductor device structure and method for manufacturing the same are provided. The semiconductor device structure includes a substrate, a dielectric structure, a pad, a conductive structure, and a buffer structure. The dielectric structure is disposed on the substrate. The pad is embedded in the dielectric structure. The conductive structure is disposed on the pad. The buffer structure is disposed on the pad and separates the conductive structure from the dielectric structure. A coefficient of thermal expansion (CTE) of the buffer structure ranges between a CTE of the dielectric structure and a CTE of the conductive structure.

A semiconductor device includes a semiconductor substrate, a metal member, and a metal oxide film. The semiconductor substrate is provided with a through-hole that passes through the semiconductor substrate from one surface to another surface opposite to the one surface. The metal member is provided in the through-hole, and includes a cavity therein defined by an internal surface. The metal oxide film coats the internal surface.

A semiconductor device includes a semiconductor substrate, a metal member, and a metal oxide film. The semiconductor substrate is provided with a through-hole that passes through the semiconductor substrate from one surface to another surface opposite to the one surface. The metal member is provided in the through-hole, and includes a cavity therein defined by an internal surface. The metal oxide film coats the internal surface.

Integrated circuit cell architectures including both front-side and back-side structures. One or more of back-side implant, semiconductor deposition, dielectric deposition, metallization, film patterning, and wafer-level layer transfer is integrated with front-side processing. Such double-side processing may entail revealing a back side of structures fabricated from the front-side of a substrate. Host-donor substrate assemblies may be built-up to support and protect front-side structures during back-side processing. Front-side devices, such as FETs, may be modified and/or interconnected during back-side processing. Electrical test may be performed from front and back sides of a workpiece. Back-side devices, such as FETs, may be integrated with front-side devices to expand device functionality, improve performance, or increase device density.