Patent application number | Description | Published |
20090042359 | Structure and Method of Producing Isolation with Non-Dopant Implantation - A method of forming an isolation trench structure is disclosed, the method includes forming an isolation trench in a semiconductor body associated with an isolation region, and implanting a non-dopant atom into the isolation trench, thereby forming a region to modify the halo profile in the semiconductor body. Subsequently, the isolation trench is filled with a dielectric material. | 02-12-2009 |
20090050972 | Strained Semiconductor Device and Method of Making Same - A method of making a semiconductor device is disclosed. A semiconductor body, a gate electrode and source/drain regions are provided. A liner is provided that covers the gate electrode and the source/drain regions. Silicide regions are formed on the semiconductor device by etching a contact hole through the liner. | 02-26-2009 |
20090079005 | Integrated Circuits and Methods of Design and Manufacture Thereof - Integrated circuits and methods of manufacture and design thereof are disclosed. For example, a method of manufacturing includes using a first mask to pattern a gate material forming a plurality of first and second features. The first features form gate electrodes of the semiconductor devices, whereas the second features are dummy electrodes. Based on the location of these dummy electrodes, selected dummy electrodes are removed using a second mask. The use of the method provides greater flexibility in tailoring individual devices for different objectives. | 03-26-2009 |
20100117159 | Strained Semiconductor Device and Method of Making Same - A method of making a semiconductor device is disclosed. An upper surface of a semiconductor body is amorphized and a liner is formed over the amorphized upper surface. The upper surface can then be annealed. A transistor is formed at the upper surface. | 05-13-2010 |
20100276759 | Integrated Circuits and Methods of Design and Manufacture Thereof - Integrated circuits and methods of manufacture and design thereof are disclosed. For example, a method of manufacturing includes using a first mask to pattern a gate material forming a plurality of first and second features. The first features form gate electrodes of the semiconductor devices, whereas the second features are dummy electrodes. Based on the location of these dummy electrodes, selected dummy electrodes are removed using a second mask. The use of the method provides greater flexibility in tailoring individual devices for different objectives. | 11-04-2010 |
20110183487 | Strained Semiconductor Device and Method of Making Same - To form a semiconductor device, an electrode layer is formed over a semiconductor body. The electrode layer includes an amorphous portion. A liner, e.g., a stress-inducing liner, is deposited over the electrode layer. The electrode layer is annealed to recrystallize the amorphous portion of the electrode layer. The liner can then be removed and an electronic component (e.g., a transistor) that includes a feature (e.g., a gate) formed from the electrode layer can be formed. | 07-28-2011 |
20120074499 | Integrated Circuits and Methods of Design and Manufacture Thereof - Integrated circuits and methods of manufacture and design thereof are disclosed. For example, a method of manufacturing includes using a first mask to pattern a gate material forming a plurality of first and second features. The first features form gate electrodes of the semiconductor devices, whereas the second features are dummy electrodes. Based on the location of these dummy electrodes, selected dummy electrodes are removed using a second mask. The use of the method provides greater flexibility in tailoring individual devices for different objectives. | 03-29-2012 |
Patent application number | Description | Published |
20090283837 | Semiconductor Devices and Methods of Manufacture Thereof - Semiconductor devices and methods of manufacture thereof are disclosed. In one embodiment, a semiconductor device includes a first transistor having a first active area, and a second transistor having a second active area. A top surface of the first active area is elevated or recessed with respect to a top surface of the second active area, or a top surface of the first active area is elevated or recessed with respect to a top surface of at least portions of an isolation region proximate the first transistor. | 11-19-2009 |
20090294820 | Capacitors and Methods of Manufacture Thereof - Semiconductor devices, capacitors, and methods of manufacture thereof are disclosed. In one embodiment, a method of fabricating a capacitor includes forming a first material over a workpiece, and patterning the first material, forming a first capacitor plate in a first region of the workpiece and forming a first element in a second region of the workpiece. A second material is formed over the workpiece and over the patterned first material. The second material is patterned, forming a capacitor dielectric and a second capacitor plate in the first region of the workpiece over the first capacitor plate and forming a second element in a third region of the workpiece. | 12-03-2009 |
20100151640 | Semiconductor Devices with Active Regions of Different Heights - Semiconductor devices and methods of manufacture thereof are disclosed. In one embodiment, a semiconductor device includes a first transistor having a first active area, and a second transistor having a second active area. A top surface of the first active area is elevated or recessed with respect to a top surface of the second active area, or a top surface of the first active area is elevated or recessed with respect to a top surface of at least portions of an isolation region proximate the first transistor. | 06-17-2010 |
20100193867 | Silicided Semiconductor Structure and Method of Forming the Same - A preferred embodiment includes a method of manufacturing a fuse element that includes forming a polysilicon layer over a semiconductor structure, doping the polysilicon layer with carbon or nitrogen, depositing a metal over the polysilicon layer; and annealing the metal and polysilicon layer to form a silicide in an upper portion of the polysilicon layer. | 08-05-2010 |
20130059424 | Buried Gate Transistor - An embodiment of the invention provides a semiconductor fabrication method. The method comprises forming an isolation region between a first and a second region in a substrate, forming a recess in the substrate surface, and lining the recess with a uniform oxide. Embodiments further include doping a channel region under the bottom recess surface in the first and second regions and depositing a gate electrode material in the recess. Preferred embodiments include forming source/drain regions adjacent the channel region in the first and second regions, preferably after the step of depositing the gate electrode material. Another embodiment of the invention provides a semiconductor device comprising a recess in a surface of the first and second active regions and in the isolation region, and a dielectric layer having a uniform thickness lining the recess. | 03-07-2013 |
20140004670 | Capacitors and Methods of Manufacture Thereof | 01-02-2014 |
20140353757 | Integrated Circuits and Methods of Design and Manufacture Thereof - Integrated circuits and methods of manufacture and design thereof are disclosed. For example, a method of manufacturing includes using a first mask to pattern a gate material forming a plurality of first and second features. The first features form gate electrodes of the semiconductor devices, whereas the second features are dummy electrodes. Based on the location of these dummy electrodes, selected dummy electrodes are removed using a second mask. The use of the method provides greater flexibility in tailoring individual devices for different objectives. | 12-04-2014 |