Patent application number | Description | Published |
20120146175 | INSULATING REGION FOR A SEMICONDUCTOR SUBSTRATE - An insulating region for a semiconductor wafer and a method of forming same. The insulating region can include a tri-layer structure of silicon oxide, boron nitride and silicon oxide. The insulating region may be used to insulate a semiconductor device layer from an underlying bulk semiconductor substrate. The insulating region can be formed by coating the sides of a very thin cavity with silicon oxide, and filling the remainder of the cavity between the silicon oxide regions with boron nitride. | 06-14-2012 |
20120187482 | FABRICATION OF CMOS TRANSISTORS HAVING DIFFERENTIALLY STRESSED SPACERS - CMOS transistors are formed incorporating a gate electrode having tensely stressed spacers on the gate sidewalls of an n channel field effect transistor and having compressively stressed spacers on the gate sidewalls of a p channel field effect transistor to provide differentially stressed channels in respective transistors to increase carrier mobility in the respective channels. | 07-26-2012 |
20130134523 | CMOS TRANSISTORS HAVING DIFFERENTIALLY STRESSED SPACERS - CMOS transistors are formed incorporating a gate electrode having tensely stressed spacers on the gate sidewalls of an n channel field effect transistor and having compressively stressed spacers on the gate sidewalls of a p channel field effect transistor to provide differentially stressed channels in respective transistors to increase carrier mobility in the respective channels. | 05-30-2013 |
20140110784 | REPLACEMENT METAL GATE FINFET - A method for fabricating a field effect transistor device includes depositing a hardmask over a semiconductor layer depositing a metallic alloy layer over the hardmask, defining a semiconductor fin, depositing a dummy gate stack material layer conformally on exposed portions of the fin, patterning a dummy gate stack by removing portions of the dummy gate stack material using an etching process that selectively removes exposed portions of the dummy gate stack without appreciably removing portions of the metallic alloy layer, removing exposed portions of the metallic alloy layer, forming spacers adjacent to the dummy gate stack, forming source and drain regions on exposed regions of the semiconductor fin, removing the dummy gate stack, removing exposed portions of the metallic alloy layer, and forming a gate stack conformally over exposed portions of the insulator layer and the semiconductor fin. | 04-24-2014 |
20140110785 | REPLACEMENT METAL GATE FINFET - A field effect transistor device includes a fin including a semiconductor material arranged on an insulator layer, the fin including a channel region, a hardmask layer arranged partially over the channel region of the fin, a gate stack arranged over the hardmask layer and over the channel region of the fin, a metallic alloy layer arranged on a first portion of the hardmask layer, the metallic alloy layer arranged adjacent to the gate stack, and a first spacer arranged adjacent to the gate stack and over the metallic alloy layer. | 04-24-2014 |
20140295637 | SPACER REPLACEMENT FOR REPLACEMENT METAL GATE SEMICONDUCTOR DEVICES - A method comprising steps of removing a first dielectric material, including a hard mask layer and one or more spacer material layers, from a semiconductor device having a sacrificial gate whose sidewalls being covered by said spacer material layers, and a raised source and a raised drain region with both, together with said sacrificial gate, being covered by said hard mask layer, wherein the removing is selective to the sacrificial gate, raised source region and raised drain region and creates a void between each of the raised source region, raised drain region and sacrificial gate. The method includes depositing a conformal layer of a second dielectric material to the semiconductor device, wherein the second material conforms in a uniform layer to the raised source region, raised drain region and sacrificial gate, and fills the void between each of the raised source region, raised drain region and sacrificial gate. | 10-02-2014 |
20150024568 | SPACER REPLACEMENT FOR REPLACEMENT METAL GATE SEMICONDUCTOR DEVICES - A method comprising steps of removing a first dielectric material, including a hard mask layer and one or more spacer material layers, from a semiconductor device having a sacrificial gate whose sidewalls being covered by said spacer material layers, and a raised source and a raised drain region with both, together with said sacrificial gate, being covered by said hard mask layer, wherein the removing is selective to the sacrificial gate, raised source region and raised drain region and creates a void between each of the raised source region, raised drain region and sacrificial gate. The method includes depositing a conformal layer of a second dielectric material to the semiconductor device, wherein the second material conforms in a uniform layer to the raised source region, raised drain region and sacrificial gate, and fills the void between each of the raised source region, raised drain region and sacrificial gate. | 01-22-2015 |