Abstract: Techniques to form low-resistance vias are discussed. In an example, semiconductor devices of a given row each include a semiconductor region extending in a first direction between corresponding source or drain regions, and a gate structure extending in a second direction over the semiconductor regions. Any semiconductor device may be separated from an adjacent semiconductor device along the second direction by a dielectric structure, through which a via passes. The via may include a conductive portion that extends through a dielectric wall in a third direction along at least an entire thickness of the gate structure. The conductive portion includes a conductive liner directly on the dielectric wall and a conductive fill on the conductive liner. The conductive liner comprises a pure elemental metal, such as tungsten, molybdenum, ruthenium, or a nickel aluminum alloy, with no metal nitride or barrier layer present between the conductive liner and the dielectric wall.

Abstract: Fabrication methods that employ an etch stop layer to assist subfin removal during fabrication of nanoribbon-based transistors are disclosed. An example fabrication method includes providing a stack of nanoribbons above a subfin, where the nanoribbons and the subfin include one or more semiconductor materials; depositing an etch stop layer over a top of the subfin and around portions of the nanoribbons; removing the etch stop layer from around the portions of the nanoribbons; providing a gate dielectric material around the portions of the nanoribbons and over the etch stop layer over the top of the subfin; depositing a gate electrode material around the portions of the nanoribbons; and performing an etch to remove the subfin without substantially removing the etch stop layer.

Abstract: Embodiments disclosed herein include a semiconductor device. In an embodiment, the semiconductor device comprises a substrate and a transistor over the substrate. In an embodiment, the transistor comprises a source, a gate, and a drain. In an embodiment, the semiconductor device further comprises a first metal layer above the transistor, where the first metal layer comprises, a source metal coupled to the source, a drain metal coupled to the drain, and a gate metal coupled to the gate. In an embodiment, the source metal, the drain metal, and the gate metal are parallel conductive lines. In an embodiment, a backside via passes through the substrate, and a contact metal in the first metal layer is coupled to the backside via. In an embodiment, the contact metal is oriented orthogonal to the source metal.

Abstract: An integrated circuit includes a first source region, a first drain region, a first fin having (i) a first upper region laterally between the first source region and the first drain region and (ii) a first lower region below the first upper region, and a first gate structure on at least top and side surfaces of the first upper region. The integrated circuit further includes a second source region, a second drain region, a second fin having (i) a second upper region laterally between the second source region and the second drain region and (ii) a second lower region below the second upper region, and a second gate structure on at least top and side surfaces of the second upper region. In an example, a first vertical height of the first lower region is different from a second vertical height of the second lower region by at least 2 nanometers (nm).

Abstract: Structures that include a passive device, such as a metal-based resistor, and methods of forming a structure that includes a passive device. The structure includes a semiconductor substrate, an interconnect structure including a passive device, and a dummy fill region arranged between the passive device and the semiconductor substrate. The dummy fill region includes a plurality of shallow trench isolation regions in the semiconductor substrate, a plurality of semiconductor fins, a plurality of source/drain regions in the plurality of semiconductor fins, and a plurality of contacts arranged over the plurality of shallow trench isolation regions.

Abstract: Structures that include a passive device, such as a metal-based resistor, and methods of forming a structure that includes a passive device. The structure includes a semiconductor substrate, an interconnect structure including a passive device, and a dummy fill region arranged between the passive device and the semiconductor substrate. The dummy fill region includes a plurality of shallow trench isolation regions in the semiconductor substrate, a plurality of semiconductor fins, a plurality of source/drain regions in the plurality of semiconductor fins, and a plurality of contacts arranged over the plurality of shallow trench isolation regions.