| Patent application number | Description | Published |
|---|
| 20080261361 | Shallow trench isolation for SOI structures combining sidewall spacer and bottom liner - A method for making a semiconductor device is provided which comprises (a) providing a layer stack comprising a semiconductor layer ( | 10-23-2008 |
| 20080261385 | METHOD FOR SELECTIVE REMOVAL OF A LAYER - A method for forming a semiconductor device includes forming a liner over a semiconductor material including a control electrode. The method further includes forming a first spacer adjacent to the control electrode, wherein the first spacer has a first width. The method further includes implanting current electrode dopants. The method further includes removing the first spacer. The method further includes forming a second spacer adjacent the control electrode, wherein the second spacer has a second width and wherein the second width is less than the first width. The method further includes using the second spacer as a protective mask to selectively remove the liner. The method further includes forming a stressor layer overlying the control electrode and current electrode regions. | 10-23-2008 |
| 20080299717 | METHOD OF FORMING A SEMICONDUCTOR DEVICE FEATURING A GATE STRESSOR AND SEMICONDUCTOR DEVICE - A semiconductor device ( | 12-04-2008 |
| 20090042351 | METHOD FOR MAKING A TRANSISTOR WITH A STRESSOR - A method for forming a semiconductor device on a semiconductor material layer includes forming a gate structure over the semiconductor material layer. The method further includes forming a first nitride spacer adjacent to the gate structure and forming source/drain extensions in the semiconductor material layer. The method further includes forming an oxide liner overlying the gate structure and the source/drain extensions. The method further includes forming a second nitride spacer adjacent to the oxide liner. The method further includes forming source/drain regions in the semiconductor material layer. The method further includes using an etching process that is selective to the oxide liner, removing the second nitride spacer. The method further includes using an etching process that is selective to the first nitride spacer, at least partially removing the oxide liner. The method further includes forming silicide regions overlying the source/drain regions and the gate structure. | 02-12-2009 |
| 20100078703 | SPLIT-GATE NON-VOLATILE MEMORY CELL AND METHOD - A method is disclosed for making a non-volatile memory cell on a semiconductor substrate. A select gate structure is formed over the substrate. The control gate structure has a sidewall. An epitaxial layer is formed on the substrate in a region adjacent to the sidewall. A charge storage layer is formed over the epitaxial layer. A control gate is formed over the charge storage layer. This allows for in-situ doping of the epitaxial layer under the select gate without requiring counterdoping. It is beneficial to avoid counterdoping because counterdoping reduces charge mobility and increases the difficulty in controlling threshold voltage. Additionally there may be formed a recess in the substrate and the epitaxial layer is formed in the recess, and a halo implant can be performed, prior to forming the epitaxial layer, through the recess into the substrate in the area under the select gate. | 04-01-2010 |
| 20100244121 | STRESSED SEMICONDUCTOR DEVICE AND METHOD FOR MAKING - A method of making a semiconductor device on a semiconductor layer includes forming a gate dielectric and a first layer of gate material over the gate dielectric. The first layer is etched to remove a portion of the first layer of gate material over a first portion of the semiconductor layer and to leave a select gate portion. A storage layer is formed over the select gate portion and over the first portion of the semiconductor layer. A second layer of gate material is formed over the storage layer. The second layer of gate material is etched to remove a first portion of the second layer of gate material over a first portion of the select gate portion. A portion of the first portion of the select gate is etched out to leave an L-shaped select structure. The result is a memory cell with an L-shaped select gate. | 09-30-2010 |
| 20100248466 | METHOD FOR MAKING A STRESSED NON-VOLATILE MEMORY DEVICE - A method of making a semiconductor device on a semiconductor layer includes: forming a gate dielectric over the semiconductor layer; forming a layer of gate material over the gate dielectric; etching the layer of gate material to form a select gate; forming a storage layer that extends over the select gate and over a portion of the semiconductor layer; depositing an amorphous silicon layer over the storage layer; etching the amorphous silicon layer to form a control gate; and annealing the semiconductor device to crystallize the amorphous silicon layer. | 09-30-2010 |
| 20110220975 | METHOD OF FORMING A SEMICONDUCTOR DEVICE FEATURING A GATE STRESSOR AND SEMICONDUCTOR DEVICE - A semiconductor device is formed in a semiconductor layer. A gate stack is formed over the semiconductor layer and comprises a first conductive layer and a second layer over the first layer. The first layer is more conductive and provides more stopping power to an implant than the second layer. A species is implanted into the second layer. Source/drain regions are formed in the semiconductor layer on opposing sides of the gate stack. The gate stack is heated after the step of implanting to cause the gate stack to exert stress in the semiconductor layer in a region under the gate stack. | 09-15-2011 |
