Patent application number | Description | Published |
20080311711 | Gapfill for metal contacts - A method of making a semiconductor interconnect is disclosed. A semiconductor body on which a transistor comprising a doped region is formed is provided. A dielectric region is formed over the doped region, and a contact hole is formed in the dielectric to expose the doped region. The contact hole is cleaned and a first layer of metal is formed over a bottom and sidewalls of the contact hole. The first layer of metal is thinned so that the thickness of the first layer of metal on the sidewalls is made more uniform. A barrier is formed over the first layer of metal and the contact hole is filled with conductive material. | 12-18-2008 |
20080315267 | Device Performance Improvement Using FlowFill as Material for Isolation Structures - A trench is formed in the surface of a provided semiconductor body. An oxide is deposited in the trench and a cap is deposited on the oxide, wherein the combination of the cap and the oxide impart a mechanical stress on the semiconductor body. | 12-25-2008 |
20090218640 | Self Aligned Silicided Contacts - Structures and methods of forming self aligned silicided contacts are disclosed. The structure includes a gate electrode disposed over an active area, a liner disposed over the gate electrode and at least a portion of the active area, an insulating layer disposed over the liner. A first contact plug is disposed in the insulating layer and the liner, the first contact plug disposed above and in contact with a portion of the active area, the first contact plug including a first conductive material. A second contact plug is disposed in the insulating layer and the liner, the second contact plug disposed above and in contact with a portion of the gate electrode, the second contact plug includes the first conductive material. A contact material layer is disposed in the active region, the contact material layer disposed under the first contact plug and includes the first conductive material. | 09-03-2009 |
20090218692 | Barrier for Copper Integration in the FEOL - Copper integration in the FEOL stage is disclosed for a preliminary semiconductor device by forming a recess in a substrate of the device, the recess having a bottom surface and sidewall surfaces, depositing a barrier layer having about a 100% step coverage on the sidewall surfaces and the bottom surface, and depositing copper into the recess over the barrier layer to form a contact providing electrical connection to the preliminary semiconductor device. | 09-03-2009 |
20090283852 | Stress-Inducing Structures, Methods, and Materials - Stress-inducing structures, methods, and materials are disclosed. In one embodiment, an isolation region includes an insulating material in a lower portion of a trench formed in a workpiece and a stress-inducing material disposed in a top portion of the trench over the insulating material. | 11-19-2009 |
20090294986 | Methods of Forming Conductive Features and Structures Thereof - Methods of forming features and structures thereof are disclosed. In one embodiment, a method of forming a feature includes forming a first material over a workpiece, forming a first pattern for a lower portion of the feature in the first material, and filling the first pattern with a sacrificial material. A second material is formed over the first material and the sacrificial material, and a second pattern for an upper portion of the feature is formed in the second material. The sacrificial material is removed. The first pattern and the second pattern are filled with a third material. | 12-03-2009 |
20090317957 | Method for Forming Isolation Structures - A trench is formed in the surface of a provided semiconductor body. An oxide is deposited in the trench and a cap is deposited on the oxide, wherein the combination of the cap and the oxide impart a mechanical stress on the semiconductor body. | 12-24-2009 |
20100190328 | Self Aligned Silicided Contacts - Structures and methods of forming self aligned silicided contacts are disclosed. The structure includes a gate electrode disposed over an active area, a liner disposed over the gate electrode and at least a portion of the active area, an insulating layer disposed over the liner. A first contact plug is disposed in the insulating layer and the liner, the first contact plug disposed above and in contact with a portion of the active area, the first contact plug including a first conductive material. A second contact plug is disposed in the insulating layer and the liner, the second contact plug disposed above and in contact with a portion of the gate electrode, the second contact plug includes the first conductive material. A contact material layer is disposed in the active region, the contact material layer disposed under the first contact plug and includes the first conductive material. | 07-29-2010 |
20110175148 | Methods of Forming Conductive Features and Structures Thereof - Methods of forming features and structures thereof are disclosed. In one embodiment, a method of forming a feature includes forming a first material over a workpiece, forming a first pattern for a lower portion of the feature in the first material, and filling the first pattern with a sacrificial material. A second material is formed over the first material and the sacrificial material, and a second pattern for an upper portion of the feature is formed in the second material. The sacrificial material is removed. The first pattern and the second pattern are filled with a third material. | 07-21-2011 |