Abstract: A resistive random access memory (RRAM) cell includes a substrate, a transistor having a gate on the substrate and a source/drain region in the substrate, a first inter-layer dielectric layer covering the transistor, a contact plug disposed in the first inter-layer dielectric layer and landing on the source/drain region, a resistive material layer conformally covering a protruding upper end portion of the contact plug, and a top electrode on the resistive material layer.

Abstract: A semiconductor device comprises a semiconductor substrate and a semiconductor fin. The semiconductor substrate has an upper surface and a recess extending downwards into the semiconductor substrate from the upper surface. The semiconductor fin is disposed in the recess and extends upwards beyond the upper surface, wherein the semiconductor fin is directly in contact with semiconductor substrate, so as to form at least one semiconductor hetero-interface on a sidewall of the recess.

Abstract: Provided is a FinFET including a substrate, at least one fin and at least one gate. A portion of the at least one fin is embedded in the substrate. The at least one fin includes, from bottom to top, a seed layer, a stress relaxation layer and a channel layer. The at least one gate is across the at least one fin. A method of forming a FinFET is further provided.

Abstract: Provided is a FinFET including a substrate, at least one fin and at least one gate. A portion of the at least one fin is embedded in the substrate. The at least one fin includes, from bottom to top, a seed layer, a stress relaxation layer and a channel layer. The at least one gate is across the at least one fin. A method of forming a FinFET is further provided.

Abstract: A semiconductor device comprises a semiconductor substrate and a semiconductor fin. The semiconductor substrate has an upper surface and a recess extending downwards into the semiconductor substrate from the upper surface. The semiconductor fin is disposed in the recess and extends upwards beyond the upper surface, wherein the semiconductor fin is directly in contact with semiconductor substrate, so as to form at least one semiconductor hetero-interface on a sidewall of the recess.

Abstract: A semiconductor device comprises a semiconductor substrate and a semiconductor fin. The semiconductor substrate has an upper surface and a recess extending downwards into the semiconductor substrate from the upper surface. The semiconductor fin is disposed in the recess and extends upwards beyond the upper surface, wherein the semiconductor fin is directly in contact with semiconductor substrate, so as to form at least one semiconductor hetero-interface on a sidewall of the recess.

Abstract: The present invention provides a method of forming an integrated circuit including a substrate, a first transistor, a second transistor and a third transistor. The first transistor has a first metal gate including a first bottom barrier layer, a first work function metal layer and a first metal layer. The second transistor has a second metal gate including a second bottom barrier layer, a second work function metal layer and a second metal layer. The third transistor has a third metal gate including a third bottom barrier layer, a third work function metal layer and a third metal layer. The first transistor, the second transistor and the third transistor has the same conductive type. A nitrogen concentration of the first bottom barrier layer>a nitrogen concentration of the second bottom barrier layer>a nitrogen concentration of the third bottom barrier layer.

Abstract: A semiconductor device includes a substrate, a first well formed in the substrate, a second well formed in the substrate, a first fin formed on the first well, and a second fin formed on the second well. The first well includes a first conductivity type, the second well includes a second conductivity type, and the first conductivity type and the second conductivity type are complementary to each other. The substrate includes a first semiconductor material. The first fin and the second fin include the first semiconductor material and a second semiconductor material. A lattice constant of the second semiconductor material is larger than a lattice constant of the first semiconductor material. The first semiconductor material in the first fin includes a first concentration, the first semiconductor material in the second fin includes a second concentration, and the second concentration is larger than the first concentration.

Abstract: A method for fabricating semiconductor device is disclosed. The method includes the steps of: providing a substrate having a high-k dielectric layer thereon; forming a first work function layer on the high-k dielectric layer; and forming a first oxygen-containing layer on the first work function layer.

Abstract: A semiconductor structure including a semiconductor substrate and at least a fin structure formed thereon. The semiconductor substrate includes a first semiconductor material. The fin structure includes a first epitaxial layer and a second epitaxial layer formed between the first epitaxial layer and the semiconductor substrate. The first epitaxial layer includes the first semiconductor material and a second semiconductor material. A lattice constant of the second semiconductor material is different from a lattice constant of the first semiconductor material. The second epitaxial layer includes the first semiconductor material and the second semiconductor material. The second epitaxial layer further includes conductive dopants.

Abstract: A semiconductor device comprises a semiconductor substrate and a semiconductor fin. The semiconductor substrate has an upper surface and a recess extending downwards into the semiconductor substrate from the upper surface. The semiconductor fin is disposed in the recess and extends upwards beyond the upper surface, wherein the semiconductor fin is directly in contact with semiconductor substrate, so as to form at least one semiconductor hetero-interface on a sidewall of the recess.

Abstract: Provided is a FinFET including a substrate, at least one fin and at least one gate. A portion of the at least one fin is embedded in the substrate. The at least one fin includes, from bottom to top, a seed layer, a stress relaxation layer and a channel layer. The at least one gate is across the at least one fin. A method of forming a FinFET is further provided.

Abstract: A semiconductor structure includes a semiconductor substrate, a dielectric structure formed on the semiconductor substrate and including at least a recess formed therein, a fin formed in the recess, and a dislocation region formed in the fin. The semiconductor substrate includes a first semiconductor material. The fin includes the first semiconductor material and a second semiconductor material. A lattice constant of the second semiconductor material is different from a lattice constant of the first semiconductor material. A topmost portion of the dislocation region is higher than an opening of the recess.

Abstract: The present invention provides a method of forming an integrated circuit including a substrate, a first transistor, a second transistor and a third transistor. The first transistor has a first metal gate including a first bottom barrier layer, a first work function metal layer and a first metal layer. The second transistor has a second metal gate including a second bottom barrier layer, a second work function metal layer and a second metal layer. The third transistor has a third metal gate including a third bottom barrier layer, a third work function metal layer and a third metal layer. The first transistor, the second transistor and the third transistor has the same conductive type. A nitrogen concentration of the first bottom barrier layer>a nitrogen concentration of the second bottom barrier layer>a nitrogen concentration of the third bottom barrier layer.

Abstract: A method for fabricating semiconductor device is disclosed. The method includes the steps of: providing a substrate having an interlayer dielectric (ILD) layer thereon; forming a first recess, a second recess, and a third recess in the ILD layer; forming a material layer on the ILD layer and in the first recess, the second recess, and the third recess; performing a first treatment on the material layer in the first recess; and performing a second treatment on the material layer in the first recess and second recess.

Abstract: A method for fabricating semiconductor device is disclosed. The method includes the steps of: providing a substrate having a high-k dielectric layer thereon; forming a first work function layer on the high-k dielectric layer; and forming a first oxygen-containing layer on the first work function layer.

Abstract: The present invention provides an integrated circuit including a substrate, a first transistor, a second transistor and a third transistor. The first transistor has a first metal gate including a first bottom barrier layer, a first work function metal layer and a first metal layer. The second transistor has a second metal gate including a second bottom barrier layer, a second work function metal layer and a second metal layer. The third transistor has a third metal gate including a third bottom barrier layer, a third work function metal layer and a third metal layer. The first transistor, the second transistor and the third transistor has the same conductive type. A nitrogen concentration of the first bottom barrier layer>a nitrogen concentration of the second bottom barrier layer>a nitrogen concentration of the third bottom barrier layer.

Abstract: A method for fabricating semiconductor device is disclosed. The method includes the steps of: providing a substrate having an interlayer dielectric (ILD) layer thereon; forming a first recess, a second recess, and a third recess in the ILD layer; forming a material layer on the ILD layer and in the first recess, the second recess, and the third recess; performing a first treatment on the material layer in the first recess; and performing a second treatment on the material layer in the first recess and second recess.

Abstract: The present invention provides an integrated circuit including a substrate, a first transistor, a second transistor and a third transistor. The first transistor has a first metal gate including a first bottom barrier layer, a first work function metal layer and a first metal layer. The second transistor has a second metal gate including a second bottom barrier layer, a second work function metal layer and a second metal layer. The third transistor has a third metal gate including a third bottom barrier layer, a third work function metal layer and a third metal layer. The first transistor, the second transistor and the third transistor has the same conductive type. A nitrogen concentration of the first bottom barrier layer>a nitrogen concentration of the second bottom barrier layer>a nitrogen concentration of the third bottom barrier layer.

Abstract: A manufacturing method of a semiconductor device comprises the following steps. First, a substrate is provided, at least one fin structure is formed on the substrate, and a metal layer is then deposited on the fin structure to form a salicide layer. After depositing the metal layer, the metal layer is removed but no RTP is performed before the metal layer is removed. Then a RTP is performed after the metal layer is removed.