A semiconductor device may include a substrate including first and second active regions, which are adjacent to each other, first and second active patterns provided on the first and second active regions, respectively, and a gate electrode extended to cross the first and second active patterns. The gate electrode may include first and second electrode portions provided on the first and second active regions, respectively. The second electrode portion may include a first metal pattern, an etch barrier pattern, a second metal pattern, and a third metal pattern sequentially covering the second active pattern. The first electrode portion may include a second metal pattern covering the first active pattern. The etch barrier pattern may be in contact with the first metal pattern and the second metal pattern, and the etch barrier pattern may be thinner than the first metal pattern and thinner than the second metal pattern.

Methods and structures for forming strained-channel finFETs are described. Fin structures for finFETs may be formed in two epitaxial layers that are grown over a bulk substrate. A first thin epitaxial layer may be cut and used to impart strain to an adjacent channel region of the finFET via elastic relaxation. The structures exhibit a preferred design range for increasing induced strain and uniformity of the strain over the fin height.

Methods and structures for forming strained-channel finFETs are described. Fin structures for finFETs may be formed in two epitaxial layers that are grown over a bulk substrate. A first thin epitaxial layer may be cut and used to impart strain to an adjacent channel region of the finFET via elastic relaxation. The structures exhibit a preferred design range for increasing induced strain and uniformity of the strain over the fin height.

A semiconductor Fin FET device includes a fin structure disposed over a substrate. The fin structure includes a channel layer. The Fin FET device also includes a gate structure including a gate electrode layer and a gate dielectric layer, covering a portion of the fin structure. Side-wall insulating layers are disposed over both main sides of the gate electrode layer. The Fin FET device includes a source and a drain, each including a stressor layer disposed in a recess formed by removing the fin structure not covered by the gate structure. The stressor layer includes a first to a third stressor layer formed in this order. In the source, an interface between the first stressor layer and the channel layer is located under one of the side-wall insulating layers closer to the source or the gate electrode.

Semiconductor memory devices may include first and second stacks on a substrate and first and second interconnection lines on the first and second stacks. Each of the first and second stacks may include semiconductor patterns vertically stacked on the substrate, conductive lines connected to the semiconductor patterns, respectively, and a gate electrode that is adjacent to the semiconductor patterns and extends in a vertical direction. The first stack may include a first conductive line and a first gate electrode, and the second stack may include a second conductive line and a second gate electrode. Lower surfaces of the first and second conductive lines may be coplanar. The first interconnection line may be electrically connected to at least one of the first and second conductive lines. The second interconnection line may be electrically connected to at least one of the first and second gate electrodes.

Semiconductor memory devices may include first and second stacks on a substrate and first and second interconnection lines on the first and second stacks. Each of the first and second stacks may include semiconductor patterns vertically stacked on the substrate, conductive lines connected to the semiconductor patterns, respectively, and a gate electrode that is adjacent to the semiconductor patterns and extends in a vertical direction. The first stack may include a first conductive line and a first gate electrode, and the second stack may include a second conductive line and a second gate electrode. Lower surfaces of the first and second conductive lines may be coplanar. The first interconnection line may be electrically connected to at least one of the first and second conductive lines. The second interconnection line may be electrically connected to at least one of the first and second gate electrodes.

A semiconductor device structure is provided. The semiconductor device structure includes a first fin structure and a second fin structure extended above a substrate, and a first source/drain structure formed over the first fin structure. The first source/drain structure is made of an N-type conductivity material. The semiconductor device structure also includes a second source/drain structure formed over the second fin structure, and the second source/drain structure is made of an P-type conductivity material. The semiconductor device structure also includes a cap layer formed over the first source/drain structure, wherein the cap layer is made of P-type conductivity material.

A semiconductor device structure is provided. The semiconductor device structure includes a first fin structure and a second fin structure extended above a substrate, and a first source/drain structure formed over the first fin structure. The first source/drain structure is made of an N-type conductivity material. The semiconductor device structure also includes a second source/drain structure formed over the second fin structure, and the second source/drain structure is made of an P-type conductivity material. The semiconductor device structure also includes a cap layer formed over the first source/drain structure, wherein the cap layer is made of P-type conductivity material.

A semiconductor device includes a first semiconductor fin, a first epitaxial layer, a first alloy layer and a contact plug. The first semiconductor fin is on a substrate. The first epitaxial layer is on the first semiconductor fin. The first alloy layer is on the first epitaxial layer. The first alloy layer is made of one or more Group IV elements and one or more metal elements, and the first alloy layer comprises a first sidewall and a second sidewall extending downwardly from a bottom of the first sidewall along a direction non-parallel to the first sidewall. The contact plug is in contact with the first and second sidewalls of the first alloy layer.

A semiconductor device includes a first semiconductor fin, a first epitaxial layer, a first alloy layer and a contact plug. The first semiconductor fin is on a substrate. The first epitaxial layer is on the first semiconductor fin. The first alloy layer is on the first epitaxial layer. The first alloy layer is made of one or more Group IV elements and one or more metal elements, and the first alloy layer comprises a first sidewall and a second sidewall extending downwardly from a bottom of the first sidewall along a direction non-parallel to the first sidewall. The contact plug is in contact with the first and second sidewalls of the first alloy layer.