Patent application number | Description | Published |
20130244422 | METHODS OF FORMING COPPER-BASED CONDUCTIVE STRUCTURES ON SEMICONDUCTOR DEVICES - Disclosed herein are various methods of forming copper-based conductive structures on semiconductor devices, such as transistors. In one example, the method involves performing a first etching process through a patterned metal hard mask layer to define an opening in a layer of insulating material, performing a second etching process through the opening in the layer of insulating material that exposes a portion of an underlying copper-containing structure, performing a wet etching process to remove the patterned metal hard mask layer, performing a selective metal deposition process through the opening in the layer of insulating material to selectively form a metal region on the copper-containing structure and, after forming the metal region, forming a copper-containing structure in the opening above the metal region. | 09-19-2013 |
20130299994 | INTEGRATED CIRCUITS AND PROCESSES FOR FORMING INTEGRATED CIRCUITS HAVING AN EMBEDDED ELECTRICAL INTERCONNECT WITHIN A SUBSTRATE - Integrated circuits and processes for forming integrated circuits are provided. An exemplary process for forming an integrated circuit includes providing a substrate including an oxide layer and a protecting layer disposed over the oxide layer. A recess is etched through the protecting layer and at least partially into the oxide layer. A barrier material is deposited in the recess to form a barrier layer over the oxide layer and protecting layer in the recess. Electrically-conductive material is deposited over the barrier layer in the recess to form the embedded electrical interconnect. The embedded electrical interconnect and barrier layer are recessed to an interconnect recess depth and a barrier recess depth, respectively, within the substrate. At least a portion of the protecting layer remains over the oxide layer after recessing the barrier layer and is removed after recessing the barrier layer. | 11-14-2013 |
20140070283 | FIELD EFFECT TRANSISTOR AND METHOD OF FABRICATION - An improved field effect transistor and method of fabrication are disclosed. A barrier layer stack is formed in the base and sidewalls of a gate cavity. The barrier layer stack has a first metal layer and a second metal layer. A gate electrode metal is deposited in the cavity. The barrier layer stack is thinned or removed on the sidewalls of the gate cavity, to more precisely control the voltage threshold of the field effect transistor. | 03-13-2014 |
20140231885 | INTEGRATED CIRCUITS AND METHODS FOR FABRICATING INTEGRATED CIRCUITS HAVING METAL GATE ELECTRODES - Integrated circuits and methods for fabricating integrated circuits are provided. In an exemplary embodiment, a method for fabricating integrated circuits includes providing a sacrificial gate structure over a semiconductor substrate. The sacrificial gate structure includes two spacers and sacrificial gate material between the two spacers. The method recesses a portion of the sacrificial gate material between the two spacers. Upper regions of the two spacers are etched while using the sacrificial gate material as a mask. The method includes removing a remaining portion of the sacrificial gate material and exposing lower regions of the two spacers. A first metal is deposited between the lower regions of the two spacers. A second metal is deposited between the upper regions of the two spacers. | 08-21-2014 |
20140273469 | METHODS OF FORMING TRENCH/VIA FEATURES IN AN UNDERLYING STRUCTURE USING A PROCESS THAT INCLUDES A MASKING LAYER FORMED BY A DIRECTED SELF-ASSEMBLY PROCESS - One illustrative method disclosed herein includes the steps of performing a directed self-assembly process to form a DSA masking layer, performing at least one process operation to remove at least one of the features of the DSA masking layer so as to thereby define a patterned DSA masking layer with a DSA masking pattern, performing at least one process operation to form a patterned transfer masking layer having a transfer masking pattern comprised of a plurality of features that define a plurality of openings in the transfer masking layer, wherein the transfer masking pattern is the inverse of the DSA masking pattern, and performing at least one etching process through the patterned transfer masking layer on a layer of material to form a plurality of trench/via features in the layer of material. | 09-18-2014 |
20140273473 | METHODS OF FORMING A MASKING LAYER FOR PATTERNING UNDERLYING STRUCTURES - One illustrative method disclosed herein includes forming a patterned hard mask layer comprised of a plurality of discrete openings above a structure, wherein the patterned hard mask layer is comprised of a plurality of intersecting line-type features, forming a patterned etch mask above the patterned hard mask layer that exposes at least one, but not all, of the plurality of discrete openings, and performing at least one etching process through the patterned etch mask and the at least one exposed opening in the patterned hard mask layer to define an opening in the structure. | 09-18-2014 |
20150194350 | THRESHOLD VOLTAGE TUNING USING SELF-ALIGNED CONTACT CAP - Methods of forming a PFET dielectric cap with varying concentrations of H | 07-09-2015 |