Patent application number | Description | Published |
20090294866 | Transistor Fabrication Methods and Structures Thereof - Methods of fabricating transistors and semiconductor devices and structures thereof are disclosed. In one embodiment, a method of fabricating a transistor includes forming a gate dielectric over a workpiece, forming a gate over the gate dielectric, and forming a stress-inducing material over the gate, the gate dielectric, and the workpiece. Sidewall spacers are formed from the stress-inducing material on sidewalls of the gate and the gate dielectric. | 12-03-2009 |
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 |
20100197106 | SEMICONDUCTOR EMBEDDED RESISTOR GENERATION - A method for generating an embedded resistor in a semiconductor device and related computer-readable storage medium are provided, the method and program steps of the medium including forming a shallow trench isolation (STI) region in a substrate; forming a pad oxide on the STI region and substrate; depositing a silicon layer on the pad oxide; forming a photo-resist mask on a portion of the silicon layer disposed substantially above the STI region.; etching the silicon layer to yield a polyconductor (PC) disposed substantially above the STI region; oxidizing the PC; depositing at least one of an oxide material or a metal gate material on the oxidized surface; depositing a silicon layer on the at least one oxide material or metal gate material; depositing additional silicon on a portion of the silicon layer disposed substantially above the STI region; patterning a transistor gate with a photo-resist mask disposed on another portion of the silicon layer disposed substantially away from the STI region; and etching the silicon layer to yield at least one transistor structure disposed substantially away from the STI region and at least one resistor structure disposed substantially above the STI region. | 08-05-2010 |
20110006373 | Transistor Structure - Methods of fabricating transistors and semiconductor devices and structures thereof are disclosed. In one embodiment, a method of fabricating a transistor includes forming a gate dielectric over a workpiece, forming a gate over the gate dielectric, and forming a stress-inducing material over the gate, the gate dielectric, and the workpiece. Sidewall spacers are formed from the stress-inducing material on sidewalls of the gate and the gate dielectric. | 01-13-2011 |
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 |
20140367787 | METHODS OF FORMING TRANSISTORS WITH RETROGRADE WELLS IN CMOS APPLICATIONS AND THE RESULTING DEVICE STRUCTURES - A method includes forming a layer of silicon-carbon on an N-active region, performing a common deposition process to form a layer of a first semiconductor material on the layer of silicon-carbon and on the P-active region, masking the N-active region, forming a layer of a second semiconductor material on the first semiconductor material in the P-active region and forming N-type and P-type transistors. A device includes a layer of silicon-carbon positioned on an N-active region, a first layer of a first semiconductor positioned on the layer of silicon-carbon, a second layer of the first semiconductor material positioned on a P-active region, a layer of a second semiconductor material positioned on the second layer of the first semiconductor material, and N-type and P-type transistors. | 12-18-2014 |
Patent application number | Description | Published |
20090032841 | Semiconductor Devices and Methods of Manufacture Thereof - Semiconductor devices and methods of manufacture thereof are disclosed. In a preferred embodiment, a method of manufacturing a semiconductor device includes providing a semiconductor wafer, forming a gate dielectric over the semiconductor wafer, and forming a gate over the gate dielectric. At least one recess is formed in the semiconductor wafer proximate the gate and the gate dielectric, at least a portion of the at least one recess extending beneath the gate. The at least one recess in the semiconductor wafer is filled with a semiconductive material. | 02-05-2009 |
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 |
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 |
20100148262 | Resistors and Methods of Manufacture Thereof - Resistors, semiconductor devices, and methods of manufacture thereof are disclosed. In one embodiment, a method of fabricating a resistor includes forming a semiconductive material over a workpiece, and patterning at least the semiconductive material, forming a gate of a transistor in a first region of the workpiece and forming a resistor in a second region of the workpiece. At least one substance is implanted into the semiconductive material of the gate of the transistor or the resistor so that the semiconductive material is different for the gate of the transistor and the resistor. | 06-17-2010 |
20100264477 | Semiconductor Devices - Semiconductor devices and methods of manufacture thereof are disclosed. A preferred embodiment includes providing a workpiece having a first orientation and at least one second orientation. The semiconductor device is implanted with a dopant species using a first implantation process in the first orientation of the workpiece. The semiconductor device is implanted with the dopant species using a second implantation process in the at least one second orientation of the workpiece, wherein the second implantation process is different than the first implantation process. | 10-21-2010 |
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 |
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 |
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 |