Patent application number | Description | Published |
20150214365 | MULTIWIDTH FINFET WITH CHANNEL CLADDING - An improved structure and methods of fabrication for finFET devices utilizing a cladding channel are disclosed. A staircase fin is formed where the fin comprises an upper portion of a first width and a lower portion of a second width, wherein the lower portion is wider than the upper portion. The narrower upper portion allows the cladding channel to be deposited and still have sufficient space for proper gate deposition, while the lower portion is wide to provide improved mechanical stability, which protects the fins during the subsequent processing steps. | 07-30-2015 |
20150214369 | METHODS OF FORMING EPITAXIAL SEMICONDUCTOR MATERIAL ON SOURCE/DRAIN REGIONS OF A FINFET SEMICONDUCTOR DEVICE AND THE RESULTING DEVICES - One illustrative device disclosed herein includes a fin defined in a semiconductor substrate having a crystalline structure, wherein at least a sidewall of the fin is positioned substantially in a <100> crystallographic direction of the substrate, a gate structure positioned around the fin, an outermost sidewall spacer positioned adjacent opposite sides of the gate structure, and an epi semiconductor material formed around portions of the fin positioned laterally outside of the outermost sidewall spacers in the source/drain regions of the device, wherein the epi semiconductor material has a substantially uniform thickness along the sidewalls of the fin. | 07-30-2015 |
20150228792 | METHODS OF FORMING A NON-PLANAR ULTRA-THIN BODY SEMICONDUCTOR DEVICE AND THE RESULTING DEVICES - One device disclosed includes a gate structure positioned around a perimeter surface of the fin, a layer of channel semiconductor material having an axial length in the channel length direction of the device that corresponds approximately to the overall width of the gate structure being positioned between the gate structure and around the outer perimeter surface of the fin, wherein an inner surface of the layer of channel semiconductor material is spaced apart from and does not contact the outer perimeter surface of the fin. One method disclosed involves, among other things, forming first and second layers of semiconductor material around the fin, forming a gate structure around the second semiconductor material, removing the portions of the first and second layers of semiconductor material positioned laterally outside of sidewall spacers and removing the first layer of semiconductor material positioned below the second layer of semiconductor material. | 08-13-2015 |
20150249127 | METHODS OF FORMING FINS FOR FINFET SEMICONDUCTOR DEVICES AND SELECTIVELY REMOVING SOME OF THE FINS BY PERFORMING A CYCLICAL FIN CUTTING PROCESS - One illustrative method disclosed herein includes forming a plurality of initial fins in a substrate, wherein at least one of the initial fins is a to-be-removed fin, forming a material adjacent the initial fins, forming a fin removal masking layer above the plurality of initial fins, removing a desired portion of the at least one to-be-removed fin by: (a) performing a recess etching process on the material to remove a portion, but not all, of the material positioned adjacent the sidewalls of the at least one to-be-removed fin, (b) after performing the recess etching process, performing a fin recess etching process to remove a portion, but not all, of the at least one to be removed fin and (c) repeating steps (a) and (b) until the desired amount of the at least one to-be-removed fin is removed. | 09-03-2015 |
20150255295 | METHODS OF FORMING ALTERNATIVE CHANNEL MATERIALS ON A NON-PLANAR SEMICONDUCTOR DEVICE AND THE RESULTING DEVICE - One illustrative method disclosed herein involves, among other things, forming trenches to form an initial fin structure having an initial exposed height and sidewalls, forming a protection layer on at least the sidewalls of the initial fin structure, extending the depth of the trenches to thereby define an increased-height fin structure, with a layer of insulating material over-filling the final trenches and with the protection layer in position, performing a fin oxidation thermal anneal process to convert at least a portion of the increased-height fin structure into an isolation material, removing the protection layer, and performing an epitaxial deposition process to form a layer of semiconductor material on at least portions of the initial fin structure. | 09-10-2015 |
20150255555 | METHODS OF FORMING A NON-PLANAR ULTRA-THIN BODY DEVICE - One illustrative method disclosed herein involves, among other things, forming a first epi semiconductor material on the exposed opposite sidewalls of a fin to thereby define a semiconductor body, performing at least one etching process to remove at least a portion of the substrate portion of the fin positioned between the first epi semiconductor materials positioned on the opposite sidewalls of the fin and to thereby define a back-gate cavity, forming a back-gate insulating material within the back-gate cavity and on the first epi semiconductor materials, forming a back-gate electrode on the back-gate insulation material within the back-gate cavity and forming a gate structure comprised of a gate insulation layer and a gate electrode around the semiconductor bodies. | 09-10-2015 |
20150270398 | METHODS OF FORMING ISOLATED CHANNEL REGIONS FOR A FINFET SEMICONDUCTOR DEVICE AND THE RESULTING DEVICE - One method disclosed includes, among other things, forming a fin structure comprised of a semiconductor material, a first epi semiconductor material and a second epi semiconductor material, forming a sacrificial gate structure above the fin structure, forming a sidewall spacer adjacent the sacrificial gate structure, performing at least one etching process to remove the portions of the fin structure positioned laterally outside of the sidewall spacer so as to thereby define a fin cavity in the source/drain regions of the device and to expose edges of the fin structure positioned under the sidewall spacer, and performing an epitaxial deposition process to form an epi etch stop layer on the exposed edges of the fin structure positioned under the sidewall spacer and within the fin cavity. | 09-24-2015 |
20150279959 | METHODS OF REMOVING PORTIONS OF FINS BY PREFORMING A SELECTIVELY ETCHABLE MATERIAL IN THE SUBSTRATE - One illustrative method disclosed herein includes, among other things, forming a region of a sacrificial material in a semiconductor substrate at a location where the portion of the fin to be removed will be located, after forming the region of sacrificial material, performing at least one first etching process to form a plurality of fin-formation trenches that define the fin, wherein at least a portion of the fin is comprised of the sacrificial material, and performing at least one second etching process to selectively remove substantially all of the sacrificial material portion of the fin relative to the substrate. | 10-01-2015 |
20150279973 | METHODS OF FORMING SUBSTANTIALLY DEFECT-FREE, FULLY-STRAINED SILICON-GERMANIUM FINS FOR A FINFET SEMICONDUCTOR DEVICE - One illustrative method disclosed herein includes, among other things, performing an epitaxial deposition process to form an epi SiGe layer above a recessed layer of insulating material and on an exposed portion of a fin, wherein the concentration of germanium in the layer of epi silicon-germanium (Si | 10-01-2015 |