| Patent application number | Description | Published |
|---|
| 20080308873 | Semiconductor device with discontinuous CESL structure - A semiconductor device using a CESL (contact etch stop layer) to induce strain in, for example, a CMOS transistor channel, and a method for fabricating such a device. A stress-producing CESL, tensile in an n-channel device and compressive in a p-channel device, is formed over the device gate structure as a discontinuous layer. This may be done, for example, by depositing an appropriate CESL, then forming an ILD layer, and simultaneously reducing the ILD layer and the CESL to a desired level. The discontinuity preferably exposes the gate electrode, or the metal contact region formed on it, if present. The upper boundary of the CESL may be further reduced, however, to position it below the upper boundary of the gate electrode. | 12-18-2008 |
| 20100044803 | SEALING STRUCTURE FOR HIGH-K METAL GATE AND METHOD OF MAKING - The present disclosure provides a semiconductor device that includes a semiconductor substrate and a transistor formed in the substrate. The transistor includes a gate stack having a high-k dielectric and metal gate, a sealing layer formed on sidewalls of the gate stack, the sealing layer having an inner edge and an outer edge, the inner edge interfacing with the sidewall of the gate stack, a spacer formed on the outer edge of the sealing layer, and a source/drain region formed on each side of the gate stack, the source/drain region including a lightly doped source/drain (LDD) region that is aligned with the outer edge of the sealing layer. | 02-25-2010 |
| 20100052072 | DUAL GATE STRUCTURE ON A SAME CHIP FOR HIGH-K METAL GATE TECHNOLOGY - A semiconductor device and method for fabricating a semiconductor device is disclosed. The method includes providing semiconductor substrate having a first region and a second region, forming a high-k dielectric layer over the semiconductor substrate, forming a capping layer over the high-k dielectric layer, forming a metal layer over the capping layer, removing the metal layer and capping layer in the second region, forming a polysilicon layer over the metal layer in the first region and over the high-k dielectric layer in the second region, and forming an active device with the metal layer in the first region and forming a passive device without the metal layer in the second region. | 03-04-2010 |
| 20110049567 | BOTTLE-NECK RECESS IN A SEMICONDUCTOR DEVICE - The present disclosure provides a method for fabricating a semiconductor device that includes providing a silicon substrate, forming a gate stack over the silicon substrate, performing a biased dry etching process to the substrate to remove a portion of the silicon substrate, thereby forming a recess region in the silicon substrate, performing a non-biased etching process to the recess region in the silicon substrate, thereby forming a bottle-neck shaped recess region in the silicon substrate, and epi-growing a semiconductor material in the bottle-neck shaped recess region in the silicon substrate. An embodiment may include a biased dry etching process including adding HeO2 gas and HBr gas. An embodiment may include performing a first biased dry etching process including N2 gas and performing a second biased dry etching process not including N2 gas. An embodiment may include performing an oxidation process to the recess region in the silicon substrate by adding oxygen gas to form silicon oxide on a portion of the recess region in the silicon substrate. As such, these processes form polymer protection to help form the bottle-neck shaped recess. | 03-03-2011 |
