Patent application number | Description | Published |
20100320542 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - To improve the performance of a CMISFET having a high-k gate insulating film and a metal gate electrode. An n-channel MISFET has, over the surface of a p-type well of a semiconductor substrate, a gate electrode formed via a first Hf-containing insulating film serving as a gate insulating film, while a p-channel MISFET has, over the surface of an n-type well, another gate electrode formed via a second Hf-containing insulating film serving as a gate insulating film. These gate electrodes have a stack structure of a metal film and a silicon film thereover. The first Hf-containing insulating film is an insulating material film comprised of Hf, a rare earth element, Si, O, and N or comprised of Hf, a rare earth element, Si, and O, while the second Hf-containing insulating film is an insulating material film comprised of Hf, Al, O, and N or comprised of Hf, Al, and O. | 12-23-2010 |
20110284971 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - There are provided a semiconductor device in which the threshold voltage of a p-channel field effect transistor is reliably controlled to allow a desired characteristic to be obtained, and a manufacturing method thereof. As a heat treatment performed at a temperature of about 700 to 900° C. proceeds, in an element formation region, aluminum (Al) in an aluminum (Al) film is diffused into a hafnium oxynitride (HfON) film, and thereby added as an element to the hafnium oxynitride (HfON) film. In addition, aluminum (Al) and titanium (Ti) in a hard mask formed of a titanium aluminum nitride (TiAlN) film are diffused into the hafnium oxynitride (HfON) film, and thereby added as elements to the hafnium oxynitride (HfON) film. | 11-24-2011 |
20120045876 | METHOD FOR MANUFACTURING A SEMICONDUCTOR DEVICE - There is provided a technology capable of preventing the increase in threshold voltages of n channel type MISFETs and p channel type MISFETs in a semiconductor device including CMISFETs having high dielectric constant gate insulation films and metal gate electrodes. When a rare earth element or aluminum is introduced into a Hf-containing insulation film which is a high dielectric constant gate insulation film for the purpose of adjusting the threshold value of the CMISFET, a threshold adjustment layer including a lanthanum film scarcely containing oxygen, and a threshold adjustment layer including an aluminum film scarcely containing oxygen are formed over the Hf-containing insulation film in an nMIS formation region and a pMIS formation region, respectively. This prevents oxygen from being diffused from the threshold adjustment layers into the Hf-containing insulation film and the main surface of a semiconductor substrate. | 02-23-2012 |
20120056268 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - There is provided a technology capable of achieving, in a semiconductor device having a MISFET using an insulating film containing hafnium as a gate insulating film, an improvement in the reliability of a MISFET. In the present invention, the gate insulating film of an n-channel core transistor is provided with a structure different from that of the gate insulating film of a p-channel core transistor. Specifically, in the n-channel core transistor, as the gate insulating film thereof, a laminate film of a silicon oxide film and a HfZrSiON film is used. On the other hand, in the p-channel core transistor, as the gate insulating film thereof, a laminate film of a silicon oxide film and a HfSiON film is used. | 03-08-2012 |
20120208346 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE - A polysilazane film is formed over the main surface of a semiconductor substrate in such a manner that the upper surface level of the polysilazane film buried in a trench of 0.2 μm or less in width becomes higher than that of a pad insulating film and the upper surface level of the polysilazane film buried in a trench of 1.0 μm or more in width becomes lower than that of the pad insulating film. Then, heat treatment is conducted at 300° C. or more to convert the polysilazane film into a first buried film made of silicon oxide (SiO | 08-16-2012 |
20120252180 | MANUFACTURING METHOD OF SEMICONDUCTOR INTEGRATED CIRCUIT DEVICE - There is a problem with a CMIS semiconductor integrated circuit using a High-k Gate insulation film that, in a device region having a short channel length and a narrow channel width, with an increase of the film thickness of an Interfacial Layer IL between the High-k Gate insulation film and a silicon-based substrate by activation annealing of source/drain regions, the absolute value of the threshold voltage increases. | 10-04-2012 |
20150060991 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - The performance of a semiconductor device having a memory element is improved. An insulating film, which is a gate insulating film for a memory element, is formed on a semiconductor substrate, and a gate electrode for the memory element is formed on the insulating film. The insulating film has a first insulating film, a second insulating film thereon, and a third insulating film thereon. The second insulating film is a high-dielectric constant insulator film having a charge accumulating function and contains hafnium, silicon, and oxygen. Each of the first insulating film and the third insulating film has a band gap larger than the band gap of the second insulating film. | 03-05-2015 |
20150340479 | SEMICONDUCTOR DEVICE - The present invention makes it possible, in a manufacturing process of a semiconductor device, to inhibit: impurities from diffusing from a substrate to a semiconductor layer; and the withstand voltage of a transistor from deteriorating. | 11-26-2015 |