Abstract: A semiconductor device includes at least one nanowire that is disposed over a substrate, extends to be spaced apart from the substrate, and includes a channel region, a gate that surrounds at least a part of the channel region, and a gate dielectric film that is disposed between the channel region and the gate. A source/drain region that contacts one end of the at least one nanowire is formed in a semiconductor layer that extends from the substrate to the one end of the at least one nanowire. Insulating spacers are formed between the substrate and the at least one nanowire. The insulating spacers are disposed between the gate and the source/drain region and are formed of a material that is different from a material of the gate dielectric film.

Abstract: A semiconductor device includes a substrate having a first region and a second region, a first MOS transistor including a first fin structure and a first gate electrode in the first region, the first fin structure having a first buffer pattern, a second buffer pattern, and a first channel pattern which are sequentially stacked on the substrate, and a second MOS transistor including a second fin structure and a second gate electrode in the second region, the second fin structure having a third buffer pattern and a second channel pattern which are sequentially stacked on the substrate. Related fabrication methods are also discussed.

Abstract: A gate-all-around (GAA) semiconductor device can include a fin structure that includes alternatingly layered first and second semiconductor patterns. A source region can extend into the alternatingly layered first and second semiconductor patterns and a drain region can extend into the alternatingly layered first and second semiconductor patterns. A gate electrode can extend between the source region and the drain region and surround channel portions of the second semiconductor patterns between the source region and the drain region to define gaps between the source and drain regions. A semiconductor oxide can be on first side walls of the gap that face the source and drain regions and can be absent from at least one of second side walls of the gaps that face the second semiconductor patterns. A gate insulating layer can be on the first side walls of the gaps between the gate electrode and the semiconductor oxide.

Abstract: A semiconductor device includes at least one nanowire that is disposed over a substrate, extends to be spaced apart from the substrate, and includes a channel region, a gate that surrounds at least a part of the channel region, and a gate dielectric film that is disposed between the channel region and the gate. A source/drain region that contacts one end of the at least one nanowire is formed in a semiconductor layer that extends from the substrate to the one end of the at least one nanowire. Insulating spacers are formed between the substrate and the at least one nanowire. The insulating spacers are disposed between the gate and the source/drain region and are formed of a material that is different from a material of the gate dielectric film.

Abstract: A semiconductor device includes a substrate having a first region and a second region, a first MOS transistor including a first fin structure and a first gate electrode in the first region, the first fin structure having a first buffer pattern, a second buffer pattern, and a first channel pattern which are sequentially stacked on the substrate, and a second MOS transistor including a second fin structure and a second gate electrode in the second region, the second fin structure having a third buffer pattern and a second channel pattern which are sequentially stacked on the substrate. Related fabrication methods are also discussed.

Abstract: A semiconductor device includes at least one nanowire that is disposed over a substrate, extends to be spaced apart from the substrate, and includes a channel region, a gate that surrounds at least a part of the channel region, and a gate dielectric film that is disposed between the channel region and the gate. A source/drain region that contacts one end of the at least one nanowire is formed in a semiconductor layer that extends from the substrate to the one end of the at least one nanowire. Insulating spacers are formed between the substrate and the at least one nanowire. The insulating spacers are disposed between the gate and the source/drain region and are formed of a material that is different from a material of the gate dielectric film.

Abstract: A gate-all-around (GAA) semiconductor device can include a fin structure that includes alternatingly layered first and second semiconductor patterns. A source region can extend into the alternatingly layered first and second semiconductor patterns and a drain region can extend into the alternatingly layered first and second semiconductor patterns. A gate electrode can extend between the source region and the drain region and surround channel portions of the second semiconductor patterns between the source region and the drain region to define gaps between the source and drain regions. A semiconductor oxide can be on first side walls of the gap that face the source and drain regions and can be absent from at least one of second side walls of the gaps that face the second semiconductor patterns. A gate insulating layer can be on the first side walls of the gaps between the gate electrode and the semiconductor oxide.

Abstract: A semiconductor device includes a substrate including first and second regions, a first transistor provided on the first region to include a first channel region protruding from the substrate, and a second transistor provided on the second region to include a second channel region and a gate electrode extending between the substrate and the second channel region. The first channel region may include a lower semiconductor pattern containing a different material from the second channel region and an upper semiconductor pattern containing the same material as the second channel region.

Abstract: A transistor and a method of manufacturing the same are disclosed. The transistor includes a first epitaxial layer, a channel layer, a gate structure and an impurity region. The first epitaxial layer on a substrate includes a silicon-germanium-tin (SixGe1-x-ySny) single crystal having a lattice constant greater than a lattice constant of a germanium (Ge) single crystal. The channel layer is disposed adjacent to the first epitaxial layer. The channel layer includes the germanium single crystal. The gate structure is disposed on the channel layer. The impurity region is disposed at an upper portion of the channel layer adjacent to the gate structure.