Patent application number | Description | Published |
20110291201 | MULTI-STRAINED SOURCE/DRAIN STRUCTURES - The present disclosure provides a semiconductor device. The semiconductor device includes a silicon substrate. The semiconductor device includes first and second regions that are disposed in the substrate. The first and second regions have a silicon compound material. The semiconductor device includes first and second source/drain structures that are partially disposed in the first and second regions, respectively. The semiconductor device includes a first gate that is disposed over the substrate. The first gate has a first proximity to the first region. The semiconductor device includes a second gate that is disposed over the substrate. The second gate has a second proximity to the second region. The second proximity is different from the first proximity. The first source/drain structure and the first gate are portions of a first transistor, and the second source/drain structure and the second gate are portions of a second transistor. | 12-01-2011 |
20120100681 | METHOD OF MANUFACTURING SOURCE/DRAIN STRUCTURES - An integrated circuit device and method for manufacturing the integrated circuit device provide improved control over a shape of a trench for forming the source and drain features of integrated circuit device, by forming a second doped region in a first doped region and removing the first and the second doped regions by a first and a second wet etching processes. | 04-26-2012 |
20120108026 | METHOD OF MANUFACTURING STRAINED SOURCE/DRAIN STRUCTURES - An integrated circuit device and method for manufacturing the integrated circuit device is disclosed. The disclosed method provides improved control over a surface proximity and tip depth of an integrated circuit device. In an embodiment, the method achieves improved control by forming a doped region and a lightly doped source and drain (LDD) region in a source and drain region of the device. The doped region is implanted with a dopant type opposite to the LDD region. | 05-03-2012 |
20120126331 | SPACER ELEMENTS FOR SEMICONDUCTOR DEVICE - The present disclosure describes a semiconductor device including a semiconductor substrate and a gate stack disposed on the semiconductor substrate. A first spacer element is disposed on the substrate abutting the first gate stack. In an embodiment, the first spacer element includes silicon nitride. A second spacer element is adjacent the first spacer element. In an embodiment, the second spacer element includes silicon oxide. A raised source and a first raised drain is provided laterally contacting sidewalls of the second spacer element. In an embodiment, a contact directly interfaces with the second spacer element. | 05-24-2012 |
20120187459 | SEMICONDUCTOR DEVICE INCLUDING AN EPITAXY REGION - A method is described which includes providing a substrate and forming a first spacer material layer abutting a gate structure on the substrate. A second spacer material layer is formed adjacent and abutting the gate structure and overlying the first spacer material layer. The first spacer material layer and the second spacer material layer are then etched concurrently to form first and second spacers, respectively. An epitaxy region is formed (e.g., grown) on the substrate which includes an interface with each of the first and second spacers. The second spacer may be subsequently removed and the first spacer remain on the device decreases the aspect ratio for an ILD gap fill. An example composition of the first spacer is SiCN. | 07-26-2012 |
20130228878 | POLY RESISTOR DESIGN FOR REPLACEMENT GATE TECHNOLOGY - A semiconductor device and method for fabricating a semiconductor device are disclosed. The semiconductor device comprises a semiconductor substrate; an active region of the substrate, wherein the active region includes at least one transistor; and a passive region of the substrate, wherein the passive region includes at least one resistive structure disposed on an isolation region, the at least one resistive structure in a lower plane than the at least one transistor | 09-05-2013 |
20130230952 | INTEGRATED CIRCUIT DEVICE AND METHOD OF MANUFACTURING SAME - An integrated circuit device and method for manufacturing the integrated circuit device is disclosed. The disclosed method provides improved protection for the bottom portion of the gate structure. In some embodiments, the method achieves improved protection for gate structure bottom by forming a recess on either side of the gate structure and placing spacers on the side walls of the gate structure, so that the spacers protect the portion of the gate structure below the gate dielectric layer. | 09-05-2013 |
20130234255 | Spacer Elements for Semiconductor Device - The present disclosure describes a semiconductor device including a semiconductor substrate and a gate stack disposed on the semiconductor substrate. A first spacer element is disposed on the substrate abutting the first gate stack. In an embodiment, the first spacer element includes silicon nitride. A second spacer element is adjacent the first spacer element. In an embodiment, the second spacer element includes silicon oxide. A raised source and a first raised drain is provided laterally contacting sidewalls of the second spacer element. In an embodiment, a contact directly interfaces with the second spacer element. | 09-12-2013 |
20140024188 | Method of Manufacturing Strained Source/Drain Structures - An integrated circuit device and method for manufacturing the integrated circuit device is disclosed. The disclosed method provides improved control over a surface proximity and tip depth of an integrated circuit device. In an embodiment, the method achieves improved control by forming a doped region and a lightly doped source and drain (LDD) region in a source and drain region of the device. The doped region is implanted with a dopant type opposite to the LDD region. | 01-23-2014 |
20140246728 | SPACER ELEMENTS FOR SEMICONDUCTOR DEVICE - The present disclosure describes a semiconductor device including a semiconductor substrate and a gate stack disposed on the semiconductor substrate. A first spacer element is disposed on the substrate abutting the first gate stack. A second spacer element is adjacent the first spacer element. A source/raised drain is provided adjacent the gate stack. A conductive feature (e.g., silicide) is disposed on the source/drain and laterally contacts sidewalls of the second spacer element. In an embodiment, a contact directly interfaces with the second spacer element. | 09-04-2014 |
20140248752 | METHOD FOR FABRICATING SEMICONDUCTOR DEVICE HAVING SPACER ELEMENTS - The present disclosure describes a method of fabricating semiconductor device including providing a semiconductor substrate and a gate stack disposed on the semiconductor substrate. A first spacer element is formed on the substrate abutting the first gate stack. In an embodiment, a source/drain region is then formed. A second spacer element is then formed is adjacent the first spacer element. The second spacer element has a second height from the surface of the substrate, and the first height is greater than the second height. In embodiments, the second spacer element is used as an etch stop in forming a contact to the source/drain region. | 09-04-2014 |
20140291768 | SPACER ELEMENTS FOR SEMICONDUCTOR DEVICE - The present disclosure describes a semiconductor device including a semiconductor substrate and a gate stack disposed on the semiconductor substrate. A first spacer element is disposed on the substrate abutting the first gate stack. A second spacer element is adjacent the first spacer element. A source/raised drain is provided adjacent the gate stack. A conductive feature (e.g., silicide) is disposed on the source/drain and laterally contacts sidewalls of the second spacer element. In an embodiment, a contact directly interfaces with the second spacer element. | 10-02-2014 |