Patent application number | Description | Published |
20080217703 | HIGHLY SELECTIVE LINERS FOR SEMICONDUCTOR FABRICATION - A method for manufacturing an isolation structure is disclosed that protects the isolation structure during etching of a dichlorosilane (DCS) nitride layer. The method involves the formation of a bis-(t-butylamino)silane-based nitride liner layer within the isolation trench, which exhibits a five-fold greater resistance to nitride etching solutions as compared with DCS nitride, thereby allowing protection against damage from unintended over-etching. The bis-(t-butylamino)silane-based nitride layer also exerts a greater tensile strain on moat regions that results in heightened carrier mobility of active regions, thereby increasing the performance of NMOS transistors embedded therein. | 09-11-2008 |
20080251864 | STACKED POLY STRUCTURE TO REDUCE THE POLY PARTICLE COUNT IN ADVANCED CMOS TECHNOLOGY - A method for implementing a stacked gate, comprising forming a gate dielectric on a semiconductor body, forming a first layer of gate electrode material on the gate dielectric, forming a second layer of gate electrode material on the first layer of gate electrode material, wherein the grain size distribution of the first layer of gate electrode material is different than the grain size distribution of the second layer of gate electrode material, implanting the first and second gate electrode materials, patterning the first and the second gate electrodes and the gate dielectric, and forming source and drain regions. | 10-16-2008 |
20090004805 | Damage Implantation of a Cap Layer - A method for fabricating a transistor on a semiconductor wafer includes providing a partial transistor containing a gate stack, extension regions, and source/drain sidewalls. The method also includes performing a source/drain implant of the semiconductor wafer, forming a cap layer over the semiconductor wafer, and performing a source/drain anneal. In addition, the method includes performing a damage implant of the cap layer and removing the cap layer over the semiconductor wafer. | 01-01-2009 |
20090045472 | Methodology for Reducing Post Burn-In Vmin Drift - A semiconductor device includes source/drain regions formed in a substrate and having a concentration of nitrogen of at least about 5E18 cm | 02-19-2009 |
20090130864 | SYSTEMS AND METHODS FOR FLASH ANNEALING OF SEMICONDUCTOR DEVICES - An embodiment generally relates a method of processing semiconductor devices. The method includes forming a semiconductor device and exposing the semiconductor device to a temperature substantially between 1175 to 1375 degrees Celsius after the formation of a gate dielectric layer. The method also includes annealing the semiconductor device for a period of time. | 05-21-2009 |
20090170277 | IMPLANT DAMAGE OF LAYER FOR EASY REMOVAL AND REDUCED SILICON RECESS - A method for semiconductor processing is provided, wherein a removal of one or more layers is aided by structurally weakening the one or more layers via ion implantation. A semiconductor substrate is provided having one or more primary layers formed thereon, and a secondary layer is formed over the one or more primary layers. One or more ion species are implanted into the secondary layer, therein structurally weakening the secondary layer, and a patterned photoresist layer is formed over the secondary layer. Respective portions of the secondary layer and the one or more primary layers that are not covered by the patterned photoresist layer are removed, and the patterned photoresist layer is further removed. At least another portion of the secondary layer is removed, wherein the structural weakening of the secondary layer increases a removal rate of the at least another portion of the secondary layer. | 07-02-2009 |
20100252887 | Damage Implantation of a Cap Layer - A method for fabricating a transistor on a semiconductor wafer includes providing a partial transistor containing a gate stack, extension regions, and source/drain sidewalls. The method also includes performing a source/drain implant of the semiconductor wafer, forming a cap layer over the semiconductor wafer, and performing a source/drain anneal. In addition, the method includes performing a damage implant of the cap layer and removing the cap layer over the semiconductor wafer. | 10-07-2010 |
20100270622 | Semiconductor Device Having a Strain Inducing Sidewall Spacer and a Method of Manufacture Therefor - The present invention provides a method for manufacturing a semiconductor device as well as a semiconductor device. The method, among other steps, may include forming a gate structure over a substrate, and forming a strain inducing sidewall spacer proximate a sidewall of the gate structure, the strain inducing sidewall configured to introduce strain in a channel region below the gate structure. | 10-28-2010 |