Patent application number | Description | Published |
20140273443 | METHODS OF FORMING TRENCH/HOLE TYPE FEATURES IN A LAYER OF MATERIAL OF AN INTEGRATED CIRCUIT PRODUCT - One illustrative method disclosed herein involves forming a layer of insulating material, forming a patterned layer of photoresist above the layer of insulating material, wherein the patterned layer of photoresist has an opening defined therein, forming an internal spacer within the opening in the patterned layer of photoresist, wherein the spacer defines a reduced-size opening, performing an etching process through the reduced-size opening on the layer of insulating material to define a trench/hole type feature in the layer of insulating material, and forming a conductive structure in the trench/hole type feature in the layer of insulating material. | 09-18-2014 |
20140329388 | METHODS OF PATTERNING FEATURES HAVING DIFFERING WIDTHS - Disclosed herein are methods of patterning features that have differing widths. In one example, the method includes forming a layer of material above a semiconductor substrate, forming a masking layer above the layer of material, wherein the masking layer is comprised of a first plurality features positioned above a first region of the semiconductor substrate and a second plurality of features positioned above a second region of the semiconductor substrate, wherein the first and second plurality of features have the same pitch spacing and wherein the first and second plurality of features have different widths, and performing at least one etching process on the layer of material through the masking layer. | 11-06-2014 |
20150064912 | METHODS OF FORMING INTEGRATED CIRCUITS AND MULTIPLE CRITICAL DIMENSION SELF-ALIGNED DOUBLE PATTERNING PROCESSES - Methods of forming integrated circuits and multiple CD SADP processes are provided that include providing a patternable structure including a first hard mask layer and a first patternable layer underlying the first hard mask layer. Mandrels are provided over the first hard mask layer. Sidewall spacers are formed adjacent sidewalls of the mandrels. The mandrels are removed, with the sidewall spacers remaining and defining gaps therebetween. The first hard mask layer is etched through the gaps to form a first patterned hard mask feature and a second patterned hard mask feature. A critical dimension of the first patterned hard mask feature is selectively modified to form a biased hard mask feature. A space is defined between sidewalls of the biased hard mask feature and the second patterned hard mask feature. The first patternable layer is etched through exposed material in the space. | 03-05-2015 |
20150187905 | METHODS OF FORMING GATE STRUCTURES FOR SEMICONDUCTOR DEVICES USING A REPLACEMENT GATE TECHNIQUE AND THE RESULTING DEVICES - One method disclosed herein includes, among other things, forming sidewall spacers adjacent opposite sides of a sacrificial gate electrode of a sacrificial gate structure, forming a tensile-stressed layer of insulating material adjacent the sidewall spacers, removing the sacrificial gate structure to define a replacement gate cavity positioned between the sidewall spacers, forming a replacement gate structure in the replacement gate cavity, forming a tensile-stressed gate cap layer above the replacement gate structure and within the replacement gate cavity and, after forming the tensile-stressed gate cap layer, removing the tensile-stressed layer of insulating material. | 07-02-2015 |
20150214331 | REPLACEMENT METAL GATE INCLUDING DIELECTRIC GATE MATERIAL - A method of fabricating a semiconductor device includes forming at least one semiconductor fin on a semiconductor substrate. A plurality of gate formation layers is formed on an etch stop layer disposed on the fin. The plurality of gate formation layers include a dummy gate layer formed from a dielectric material. The plurality of gate formation layers is patterned to form a plurality of dummy gate elements on the etch stop layer. Each dummy gate element is formed from the dielectric material. A spacer layer formed on the dummy gate elements is etched to form a spacer on each sidewall of dummy gate elements. A portion of the etch stop layer located between each dummy gate element is etched to expose a portion the semiconductor fin. A semiconductor material is epitaxially grown from the exposed portion of the semiconductor fin to form source/drain regions. | 07-30-2015 |
20150255299 | METHODS FOR FABRICATING INTEGRATED CIRCUITS INCLUDING SELECTIVELY FORMING AND REMOVING FIN STRUCTURES - Methods for fabricating integrated circuits are provided. In an embodiment, a method for fabricating an integrated circuit includes forming fin structures in a selected area of a semiconductor substrate. The method includes covering the fin structures and the semiconductor substrate with a mask and forming a trench in the mask to define no more than two exposed fin structures in the selected area. Further, the method includes removing the exposed fin structures to provide the selected area with a desired number of fin structures. | 09-10-2015 |
20150318181 | METHODS FOR FABRICATING INTEGRATED CIRCUITS USING SELF-ALIGNED QUADRUPLE PATTERNING - Methods for fabricating integrated circuits and for forming masks for fabricating integrated circuits are provided. An exemplary method for fabricating an integrated circuit includes providing a patternable structure having first and second regions and including upper and lower mandrel layers. The method etches upper mandrels from the upper mandrel layer in the first and second regions. The method includes forming first upper spacer structures having a first width adjacent upper mandrels in the first region and forming second upper spacer structures having a second width not equal to the first width adjacent upper mandrels in the second region. The method etches the lower mandrel layer using the first and second upper spacer structures as an etch mask to form lower mandrels. Further, the method includes forming spacers adjacent the lower mandrels and etching a material using the spacers as an etch mask to form variably spaced features. | 11-05-2015 |
20150357434 | REPLACEMENT METAL GATE INCLUDING DIELECTRIC GATE MATERIAL - A method of fabricating a semiconductor device includes forming at least one semiconductor fin on a semiconductor substrate. A plurality of gate formation layers is formed on an etch stop layer disposed on the fin. The plurality of gate formation layers include a dummy gate layer formed from a dielectric material. The plurality of gate formation layers is patterned to form a plurality of dummy gate elements on the etch stop layer. Each dummy gate element is formed from the dielectric material. A spacer layer formed on the dummy gate elements is etched to form a spacer on each sidewall of dummy gate elements. A portion of the etch stop layer located between each dummy gate element is etched to expose a portion the semiconductor fin. A semiconductor material is epitaxially grown from the exposed portion of the semiconductor fin to form source/drain regions. | 12-10-2015 |