摘要:
A semiconductor device is provided herein, which includes a substrate having a first-type MOS transistor, an input/output (I/O) second-type MOS transistor, and a core second-type MOS transistor formed thereon. The semiconductor device further includes a first stress layer and a second stress layer. The first stress layer is disposed on the first-type MOS transistor, or on the first-type MOS transistor and the I/O second-type MOS transistor. The second stress layer is disposed on the core second-type MOS transistor.
摘要:
A semiconductor device is provided herein, which includes a substrate having a first-type MOS transistor, an input/output (I/O) second-type MOS transistor, and a core second-type MOS transistor formed thereon. The semiconductor device further includes a first stress layer and a second stress layer. The first stress layer is disposed on the first-type MOS transistor, or on the first-type MOS transistor and the I/O second-type MOS transistor. The second stress layer is disposed on the core second-type MOS transistor.
摘要:
A method for fabricating strained-silicon transistors is disclosed. First, a semiconductor substrate is provided and a gate structure and a spacer surrounding the gate structure are disposed on the semiconductor substrate. A source/drain region is then formed in the semiconductor substrate around the spacer, and a first rapid thermal annealing process is performed to activate the dopants within the source/drain region. An etching process is performed to form a recess around the gate structure and a selective epitaxial growth process is performed to form an epitaxial layer in the recess. A second rapid thermal annealing process is performed to redefine the distribution of the dopants within the source/drain region and repair the damaged bonds of the dopants.
摘要:
A method of forming a semiconductor device. The method comprises steps of providing a substrate having a first transistor, a second transistor and non-salicide device formed thereon and the conductive type of the first transistor is different from that of the second transistor. A buffer layer is formed over the substrate and a tensile material layer is formed over the buffer layer. A portion of the tensile material layer over the second transistor is thinned and a spike annealing process is performed. The tensile material layer is removed to expose the buffer layer over the substrate and a patterned salicide blocking layer is formed over the non-salicide device. A salicide process is performed for forming a salicide layer on a portion of the first transistor and the second transistor.
摘要:
A method of fabricating a metal-oxide-semiconductor transistor is provided. A first gate structure and a second gate structure are formed on a substrate. The first gate structure has a dimension greater than the second gate structure. Then, first lightly doped drain regions are formed in the substrate on two sides of the first gate structure. A lightly doped drain annealing process is performed. Next, second lightly doped drain regions are formed in the substrate on two sides of the second gate structure. First spacers are formed on the sidewalls of the first gate structure and second spacers are formed on the sidewalls of the second gate structure at the same time. Afterwards, first source/drain regions are formed in the substrate on two sides of the first spacers and second source/drain regions are formed in the substrate on two sides of the second spacers. A source/drain annealing process is performed.
摘要:
A semiconductor structure is disclosed, including a substrate having therein a first well of a first conductivity type and a second well of a second conductivity type, a first MOS transistor of the first conductivity type and a second MOS transistor of the second conductivity type. The first MOS transistor is disposed on the second well, including a gate structure on the second well and a strained layer of the first conductivity type in an opening in the second well beside the gate structure. The difference between the lattice parameter of a portion of the strained layer near the bottom of the opening and that of the substrate is less than the difference between the lattice parameter of a portion of the strained layer apart from the bottom of the opening and that of the substrate. The second MOS transistor is disposed on the first well.
摘要:
An exemplary semiconductor device includes a substrate, a spacer, a metal silicide layer and carbon atoms. The substrate has a gate structure formed thereon. The spacer is formed on the sidewall of the gate structure. The spacer has a first side adjacent to the gate structure and a second side away from the gate structure. The metal silicide layer is formed on the substrate and adjacent to the second side of the spacer but away from the first side of the spacer. The carbon atoms are formed into the substrate and adjacent to the first side of the spacer but away from the second side of the spacer.
摘要:
A method for fabricating strained-silicon transistors is disclosed. First, a semiconductor substrate is provided and a gate structure and a spacer surrounding the gate structure are disposed on the semiconductor substrate. A source/drain region is then formed in the semiconductor substrate around the spacer, and a first rapid thermal annealing process is performed to activate the dopants within the source/drain region. An etching process is performed to form a recess around the gate structure and a selective epitaxial growth process is performed to form an epitaxial layer in the recess. A second rapid thermal annealing process is performed to redefine the distribution of the dopants within the source/drain region and repair the damaged bonds of the dopants.
摘要:
A method for fabrication a p-type channel FET includes forming a gate on a substrate. Then, a PAI ion implantation process is performed. Further, a pocket implantation process is conducted to form a pocket region. Thereafter, a first co-implantation process is performed to define a source/drain extension region depth profile. Then, a p-type source/drain extension region is formed. Afterwards, a second co-implantation process is performed to define a source/drain region depth profile. Thereafter, an in-situ doped epitaxy growth process is performed to form a doped semiconductor compound for serving as a p-type source/drain region.
摘要:
A method of fabricating a metal-oxide-semiconductor transistor is provided. A first gate structure and a second gate structure are formed on a substrate. The first gate structure has a dimension greater than the second gate structure. Then, first lightly doped drain regions are formed in the substrate on two sides of the first gate structure. A lightly doped drain annealing process is performed. Next, second lightly doped drain regions are formed in the substrate on two sides of the second gate structure. First spacers are formed on the sidewalls of the first gate structure and second spacers are formed on the sidewalls of the second gate structure at the same time. Afterwards, first source/drain regions are formed in the substrate on two sides of the first spacers and second source/drain regions are formed in the substrate on two sides of the second spacers. A source/drain annealing process is performed.