Operations in fabricating a Fin FET include providing a substrate having a fin structure, where an upper portion of the fin structure has a first fin surface profile. An isolation region is formed on the substrate and in contact with the fin structure. A portion of the isolation region is recessed by an etch process to form a recessed portion and to expose the upper portion of the fin structure, where the recessed portion has a first isolation surface profile. A thermal hydrogen treatment is applied to the fin structure and the recessed portion. A gate dielectric layer is formed with a substantially uniform thickness over the fin structure, where the recessed portion is adjusted from the first isolation surface profile to a second isolation surface profile and the fin structure is adjusted from the first fin surface profile to a second fin surface profile by the thermal hydrogen treatment.

An integrated circuit device includes a fin-type active area protruding from a substrate; a plurality of liners sequentially covering lower side walls of the fin-type active area; a device isolation layer covering the lower side walls of the fin-type active area with the plurality of liners between the device isolation layer and the fin-type active area; and a gate insulating layer extending to cover a channel region of the fin-type active area, the plurality of liners, and the device isolation layer, and including protrusions located on portions of the gate insulating layer which cover the plurality of liners.

Methods of manufacturing a semiconductor device are provided. The methods may include forming a fin-type active region protruding from a substrate and forming a gate insulating film covering a top surface and both sidewalls of the fin-type active region. The gate insulating film may include a high-k dielectric film. The methods may also include forming a metal-containing layer on the gate insulating film, forming a silicon capping layer containing hydrogen atoms on the metal-containing layer, removing a portion of the hydrogen atoms contained in the silicon capping layer, removing the silicon capping layer and at least a portion of the metal-containing layer, and forming a gate electrode on the gate insulating film. The gate electrode may cover the top surface and the both sidewalls of the fin-type active region.

A semiconductor device includes a semiconductor fin extending from a substrate, and a gate structure extending across the semiconductor fin. From a plan view, the semiconductor fin includes a first sidewall, a second sidewall opposing the first sidewall, an end surface extending along a different direction than the first sidewall and the second sidewall, and a first corner portion connecting the first sidewall and the end surface. The first corner portion is more rounded than the first sidewall and the end surface.

Embodiments of the disclosure are in the field of advanced integrated circuit structure fabrication and, in particular, 10 nanometer node and smaller integrated circuit structure fabrication and the resulting structures. In an example, an integrated circuit structure includes a fin. An isolation structure surrounds a lower fin portion, the isolation structure comprising an insulating material having a top surface, and a semiconductor material on a portion of the top surface of the insulating material, wherein the semiconductor material is separated from the fin. A gate dielectric layer is over the top of an upper fin portion and laterally adjacent the sidewalls of the upper fin portion, the gate dielectric layer further on the semiconductor material on the portion of the top surface of the insulating material. A gate electrode is over the gate dielectric layer.

A semiconductor device includes a first fin-shaped structure and a second fin-shaped structure on a substrate, a bump between the first fin-shaped structure and the second fin-shaped structure, a first recess between the first fin-shaped structure and the bump, and a second recess between the second fin-shaped structure and the bump. Preferably, a top surface of the bump includes a curve concave upward, a width of the bump is greater than twice the width of the first fin-shaped structure, and a height of the bump is less than one fourth of the height of the first fin-shaped structure.

Embodiments of the disclosure are in the field of advanced integrated circuit structure fabrication and, in particular, 10 nanometer node and smaller integrated circuit structure fabrication and the resulting structures. In an example, an integrated circuit structure includes a fin. A gate dielectric layer is over the top of the fin and laterally adjacent the sidewalls of the fin. A gate electrode is over the gate dielectric layer over the top of the fin and laterally adjacent the sidewalls of the fin. First and second semiconductor source or drain regions are adjacent the first and second sides of the gate electrode, respectively. First and second trench contact structures are over the first and second semiconductor source or drain regions, respectively, the first and second trench contact structures both comprising a U-shaped metal layer and a T-shaped metal layer on and over the entirety of the U-shaped metal layer.

A semiconductor device includes a substrate having a first region and a second region, a first transistor in the first region, a second transistor in the first region, and a third transistor in the second region. The first transistor includes a first channel layer and a first gate dielectric layer on the first channel layer. The second transistor includes a second channel layer and a second gate dielectric layer on the second channel layer. The second gate dielectric layer is thicker than the first gate dielectric layer. The third transistor includes a third channel layer and a third gate dielectric layer on the third channel layer. The third gate dielectric layer is thicker than the second gate dielectric layer.

Embodiments of the disclosure are in the field of advanced integrated circuit structure fabrication and, in particular, integrated circuit structures having germanium-based channels are described. In an example, an integrated circuit structure includes a fin having a lower silicon portion, an intermediate germanium portion on the lower silicon portion, and a silicon germanium portion on the intermediate germanium portion. An isolation structure is along sidewalls of the lower silicon portion of the fin. A gate stack is over a top of and along sidewalls of an upper portion of the fin and on a top surface of the isolation structure. A first source or drain structure is at a first side of the gate stack. A second source or drain structure is at a second side of the gate stack.

A fin field effect transistor device structure includes a fin structure formed over a substrate. The structure also includes a liner layer and an isolation structure surrounding the fin structure. The structure also includes a gate dielectric layer formed over the fin structure and the isolation structure. The structure also includes a gate structure formed over the gate dielectric layer. The structure also includes source/drain epitaxial structures formed on opposite sides of the gate structure. The fin structure includes a protruding portion laterally extending over the liner layer.