Patent application number | Description | Published |
20090289285 | Semiconductor device and method of fabricating the same - Provided is a semiconductor device including a transistor that has a silicide layer formed over a semiconductor substrate. The gate electrode of each transistor is composed of a polysilicon electrode and the silicide layer formed thereon. Each transistor further has source/drain impurity-diffused layers composed of low-concentration doped regions and high-concentration doped regions, and silicide layers formed over the source/drain impurity-diffused layers. The surface of each silicide layer is positioned above the surface of the semiconductor substrate. The silicide layers contain a silicidation-suppressive metal, and have a concentration profile of the silicidation-suppressive metal over a region of the silicide layers ranging from the surface to a predetermined depth, such as increasing the concentration from the surface of each silicide layer in the depth-wise direction of the semiconductor substrate. | 11-26-2009 |
20100133622 | Semiconductor device including MOSFET with controlled threshold voltage, and manufacturing method of the same - Provided is a semiconductor device including an N-MOSFET and a P-MOSFET on a semiconductor substrate. The N-MOSFET is formed on the semiconductor substrate, and includes a first gate insulating film including a first high-dielectric-constant film having a higher dielectric constant than a silicon oxide film. The P-MOSFET is formed on the semiconductor substrate, and includes a second gate insulating film including a second high-dielectric-constant film having a higher dielectric constant than a silicon oxide film. The first high-dielectric-constant film contains a first metal, and a concentration of the first metal increases from a surface of the first high-dielectric-constant film toward the semiconductor substrate. The second high-dielectric-constant film contains a second metal, and a concentration of the second metal decreases from a surface of the second high-dielectric-constant film toward the semiconductor substrate. | 06-03-2010 |
20100224914 | SEMICONDUCTOR DEVICE - Provided is a semiconductor device including: a first n-channel fin-type field effect transistor formed on a first crystal plane; and a second n-channel fin-type field effect transistor formed on the first crystal plane and having a gate length longer than that of the first n-channel fin-type field effect transistor. A side surface of a fin of the first n-channel fin-type field effect transistor and a side surface of a fin of the second n-channel fin-type field effect transistor are both formed on a second crystal plane having a carrier mobility lower than that of the first crystal plane. The width of the fin of the second n-channel fin-type field effect transistor is greater than the width of the fin of the first n-channel fin-type field effect transistor. | 09-09-2010 |
20100252888 | SEMICONDUCTOR DEVICE - A semiconductor device includes a field-effect transistor on a substrate. The field-effect transistor includes a gate insulating film and a gate electrode. The gate electrode has a laminated structure including a first electrode layer made of a first metal, a second electrode layer made of a second metal, and a third electrode layer made of a silicon layer. The second metal is a material having a workfunction for alleviating band discontinuity between the first electrode layer and the third electrode layer, with respect to a majority carrier of the silicon layer. | 10-07-2010 |
20100270621 | Semiconductor device and method of manufacturing the semiconductor device - A semiconductor device includes: a FinFET (Fin Field Effect Transistor); and a PlanarFET (Planar Field Effect Transistor). The FinFET is provided on a chip. The PlanarFET is provided on the chip. A second gate insulating layer of the PlanarFET is thicker than a first gate insulating layer of the FinFET. | 10-28-2010 |
20100327365 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE AND SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes: forming a gate insulating film over a semiconductor substrate; forming a mask that has an opening at a position corresponding to the gate insulating film formed in an NMOSFET forming region and covers the gate insulating film; forming a first metal layer over the gate insulating film disposed in the NMOSFET forming region and the mask formed in a PMOSFET forming region; and performing a heat treatment to thermally diffuse a metal material forming the first metal layer into the gate insulating film formed in the NMOSFET forming region. | 12-30-2010 |
20120315736 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes forming a first region including a FinFET (Fin Field Effect Transistor), forming a second region including a PlanarFET (Planar Field Effect Transistor), forming first extension regions in the plurality of fins in the first region, forming second extension regions in the second region using the second gate electrode as a mask, forming first side walls and second side walls on side surfaces of the first gate electrode and on side surfaces of the second gate electrode, respectively, and forming a source and a drain of the FinFET in the first region using the first gate electrode and first side walls as masks and forming a source and a drain of the PlanarFET in the second region by an ion implantation method using the second gate electrode and second side walls as masks, at the same time. | 12-13-2012 |