| Patent application number | Description | Published |
|---|
| 20080299739 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - According to an aspect of an embodiment, a method of manufacturing a semiconductor device has forming a first insulating film over a rear surface of a plurality of silicon substrates, annealing the plurality of silicon substrates to degas the oxide species in the first insulating film, and oxidizing the surface of the plurality of silicon substrates in a batch process after annealing the silicon substrates. | 12-04-2008 |
| 20090023301 | FILM DEPOSITION APPARATUS, METHOD OF MANUFACTURING A SEMICONDUCTOR DEVICE, AND METHOD OF COATING THE FILM DEPOSITION APPARATUS - A method of manufacturing a semiconductor device has supplying a first reactant gas into buffer chamber provided in a reaction chamber of the film deposition apparatus to form a first film over an inner wall surface of the buffer chamber, and supplying a second reactant gas into the reaction chamber to form a second film over a semiconductor substrate. | 01-22-2009 |
| 20090045471 | Semiconductor device fabricated by selective epitaxial growth method - A semiconductor device in which selectivity in epitaxial growth is improved. There is provided a semiconductor device comprising a gate electrode formed over an Si substrate, which is a semiconductor substrate, with a gate insulating film therebetween and an insulating layer formed over sides of the gate electrode and containing a halogen element. With this semiconductor device, a silicon nitride film which contains the halogen element is formed over the sides of the gate electrode when an SiGe layer is formed over the Si substrate. Therefore, the SiGe layer epitaxial-grows over the Si substrate with high selectivity. As a result, an OFF-state leakage current which flows between, for example, the gate electrode and source/drain regions is suppressed and a manufacturing process suitable for actual mass production is established. | 02-19-2009 |
| 20090117715 | Semiconductor device fabricated by selective epitaxial growth method - A semiconductor device in which selectivity in epitaxial growth is improved. There is provided a semiconductor device comprising a gate electrode formed over an Si substrate, which is a semiconductor substrate, with a gate insulating film therebetween and an insulating layer formed over sides of the gate electrode and containing a halogen element. With this semiconductor device, a silicon nitride film which contains the halogen element is formed over the sides of the gate electrode when an SiGe layer is formed over the Si substrate. Therefore, the SiGe layer epitaxial-grows over the Si substrate with high selectivity. As a result, an OFF-state leakage current which flows between, for example, the gate electrode and source/drain regions is suppressed and a manufacturing process suitable for actual mass production is established. | 05-07-2009 |
| 20090311838 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A method of manufacturing a semiconductor device includes forming a conductive layer over a semiconductor substrate, selectively removing the conductive layer for forming a resistance element and a gate electrode, forming sidewall spacers over sidewalls of the remaining conductive layer, forming a first insulating film containing a nitrogen over the semiconductor substrate having the sidewall spacers, implanting ions in the semiconductor substrate through the first insulating film, forming a second insulating film containing a nitrogen over the first insulating film after implanting ions in the semiconductor substrate through the first insulating film, and selectively removing the first and the second insulating film such that at least a part of the first and the second insulating films is remained over the semiconductor substrate and over the conductive layer. | 12-17-2009 |
| 20110136307 | SEMICONDUCTOR DEVICE HAVING BUFFER LAYER BETWEEN SIDEWALL INSULATING FILM AND SEMICONDUCTOR SUBSTRATE - A semiconductor device includes an NMOS transistor and a PMOS transistor. The NMOS transistor includes a channel area formed in a silicon substrate, a gate electrode formed on a gate insulating film in correspondence with the channel area, and a source area and a drain area formed in the silicon substrate having the channel area situated therebetween. The PMOS transistor includes another channel area formed in the silicon substrate, another gate electrode formed on another gate insulating film in correspondence with the other channel area, and another source area and another drain area formed in the silicon substrate having the other channel area situated therebetween. The gate electrode has first sidewall insulating films. The other gate electrode has second sidewall insulating films. The distance between the second sidewall insulating films and the silicon substrate is greater than the distance between the first sidewall insulating films and the silicon substrate. | 06-09-2011 |
