Patent application number | Description | Published |
20090068807 | DUAL GATE OXIDE DEVICE INTEGRATION - A method of forming devices including forming a first region and a second region in a semiconductor substrate is provided. The method further includes forming a semiconductive material over the first region, wherein the semiconductive material has a different electrical property than the first semiconductor substrate, forming a first dielectric material over the first region, depositing a second dielectric material over the first dielectric material and over the second region, wherein the second dielectric material is different than the first dielectric material, and depositing a gate electrode material over the high dielectric constant material. In one embodiment, the semiconductive material is silicon germanium and the semiconductor substrate is silicon. | 03-12-2009 |
20090325106 | Method for Implant Imaging with Spin-on Hard Masks - A semiconductor fabrication method that includes forming a patterned mask ( | 12-31-2009 |
20130292805 | METHODS OF FORMING SPACERS ON FINFETS AND OTHER SEMICONDUCTOR DEVICES - Disclosed herein are various methods of forming spacers on FinFETs and other semiconductor devices. In one example, the method includes forming a plurality of spaced-apart trenches in a semiconducting substrate that defines a fin, forming a first layer of insulating material in the trenches that covers a lower portion of the fin but exposes an upper portion of the fin, and forming a second layer of insulating material on the exposed upper portion of the fin. The method further comprises selectively forming a dielectric material above an upper surface of the fin and in a bottom of the trench, depositing a layer of spacer material above a gate structure of the device and above the dielectric material above the fin and in the trench, and performing an etching process on the layer of spacer material to define sidewall spacers positioned adjacent the gate structure. | 11-07-2013 |
20130309846 | METHODS OF FORMING A SILICON SEED LAYER AND LAYERS OF SILICON AND SILICON-CONTAINING MATERIAL THEREFROM - Disclosed herein are various methods of forming a silicon seed layer and layers of silicon and silicon-containing material therefrom. In one example, the method includes forming a layer of silicon dioxide above a structure, converting at least a portion of the layer of silicon dioxide into a silicon-salt layer and converting at least a portion of the silicon-salt layer to a layer of silicon. | 11-21-2013 |
20140256064 | METHODS OF REPAIRING DAMAGED INSULATING MATERIALS BY INTRODUCING CARBON INTO THE LAYER OF INSULATING MATERIAL - One illustrative method disclosed herein includes providing a layer of a carbon-containing insulating material having a nominal carbon concentration, performing at least one process operation on the carbon-containing insulating material that results in the formation of a reduced-carbon-concentration region in the layer of carbon-containing insulating material, wherein the reduced-carbon-concentration region has a carbon concentration that is less than the nominal carbon concentration, performing a carbon-introduction process operation to introduce carbon atoms into at least the reduced-carbon-concentration region and thereby define a carbon-enhanced region having a carbon concentration that is greater than the carbon concentration of the reduced-carbon-concentration region and, after introducing the carbon atoms, performing a heating process on at least the carbon-enhanced region. | 09-11-2014 |
20150041906 | METHODS OF FORMING STRESSED FIN CHANNEL STRUCTURES FOR FINFET SEMICONDUCTOR DEVICES - One method disclosed herein includes forming a first stressed conductive layer within the trenches of a FinFET device and above the upper surface of a fin, forming a second stressed conductive layer above the first stressed conductive layer, removing a portion of the second stressed conductive layer and a portion of the first stressed conductive layer that is positioned above the fin while leaving portions of the first stressed conductive layer positioned within the trenches, and forming a conductive layer above the second stressed conductive layer, the upper surface of the fin and the portions of the first stressed conductive layer positioned within the trenches. | 02-12-2015 |
20150044855 | METHODS OF FORMING SPACERS ON FINFETS AND OTHER SEMICONDUCTOR DEVICES - Disclosed herein are various methods of forming spacers on FinFETs and other semiconductor devices. In one example, the method includes forming a plurality of spaced-apart trenches in a semiconducting substrate that defines a fin, forming a first layer of insulating material in the trenches that covers a lower portion of the fin but exposes an upper portion of the fin, and forming a second layer of insulating material on the exposed upper portion of the fin. The method further comprises selectively forming a dielectric material above an upper surface of the fin and in a bottom of the trench, depositing a layer of spacer material above a gate structure of the device and above the dielectric material above the fin and in the trench, and performing an etching process on the layer of spacer material to define sidewall spacers positioned adjacent the gate structure. | 02-12-2015 |
20150060960 | METHODS OF FORMING CONTACT STRUCTURES ON FINFET SEMICONDUCTOR DEVICES AND THE RESULTING DEVICES - A method includes forming a raised isolation structure with a recess above a substrate, forming a gate structure above the fin, forming a plurality of spaced-apart buried fin contact structures within the recess that have an outer perimeter surface that contacts at least a portion of an interior perimeter surface of the recess and forming at least one source/drain contact structure for each of the buried fin contact structures. One device includes a plurality of spaced-apart buried fin contact structures positioned within a recess in a raised isolation structure on opposite sides of a gate structure. The upper surface of each of the buried fin contact structures is positioned below an upper surface of the raised isolation structure and an outer perimeter surface of each of the buried fin contact structures contacts at least a portion of an interior perimeter surface of the recess. | 03-05-2015 |
20150076609 | METHODS OF FORMING STRESSED LAYERS ON FINFET SEMICONDUCTOR DEVICES AND THE RESULTING DEVICES - One method includes forming a raised isolation structure with a recess above a substrate, forming a gate structure above the fin, forming a plurality of spaced-apart buried fin contact structures within the recess and forming a stress-inducing material layer above the buried fin contact structures. One device includes a plurality of spaced-apart buried fin contact structures positioned within a recess in a raised isolation structure on opposite sides of a gate structure, a stress-inducing material layer formed above the buried fin contact structures and a source/drain contact that extends through the stress-inducing material layer. | 03-19-2015 |