Patent application number | Description | Published |
20110278165 | PROCESS KIT SHIELD FOR IMPROVED PARTICLE REDUCTION - Apparatus for improved particle reduction are provided herein. In some embodiments, an apparatus may include a process kit shield comprising a one-piece metal body having an upper portion and a lower portion and having an opening disposed through the one-piece metal body, wherein the upper portion includes an opening-facing surface configured to be disposed about and spaced apart from a target of a physical vapor deposition chamber and wherein the opening-facing surface is configured to limit particle deposition on an upper surface of the upper portion of the one-piece metal body during sputtering of a target material from the target of the physical vapor deposition chamber. | 11-17-2011 |
20120070982 | METHODS FOR FORMING LAYERS ON A SUBSTRATE - Methods for forming layers on a substrate having one or more features formed therein are provided herein. In some embodiments, a method for forming layers on a substrate having one or more features formed therein may include depositing a seed layer within the one or more features; and etching the seed layer to remove at least a portion of the seed layer proximate an opening of the feature such that the seed layer comprises a first thickness disposed on a lower portion of a sidewall of the feature proximate a bottom of the feature and a second thickness disposed on an upper portion of the sidewall proximate the opening of the feature and wherein the first thickness is greater than the second thickness. | 03-22-2012 |
20120252207 | POST DEPOSITION TREATMENTS FOR CVD COBALT FILMS - Embodiments of the invention provide methods for forming materials on a substrate used for metal gate and other applications. In one embodiment, a method includes forming a cobalt stack over a barrier layer disposed on a substrate by depositing a cobalt layer during a deposition process, exposing the cobalt layer to a plasma to form a plasma-treated cobalt layer during a plasma process, and repeating the cobalt deposition process and the plasma process to form the cobalt stack containing a plurality of plasma-treated cobalt layers. The method further includes exposing the cobalt stack to an oxygen source gas to form a cobalt oxide layer from an upper portion of the cobalt stack during a surface oxidation process and heating the remaining portion of the cobalt stack to a temperature within a range from about 300° C. to about 500° C. to form a crystalline cobalt film during a thermal annealing crystallization process. | 10-04-2012 |
20130102144 | METHODS FOR FORMING A METAL GATE STRUCTURE ON A SUBSTRATE - Methods for forming a metal gate structure on a substrate are provided herein. In some embodiments, a method for forming a metal gate structure on a substrate having a dielectric layer formed on the substrate may include depositing a metal layer while providing a process gas comprising oxygen to form an oxygen doped work function layer atop the dielectric layer; and depositing a metal gate layer atop dielectric layer. | 04-25-2013 |
20130157460 | METHODS FOR ANNEALING A METAL CONTACT LAYER TO FORM A METAL SILICIDATION LAYER - Methods for annealing a contact metal layer for a metal silicidation process are provided in the present invention. In one embodiment, a method for annealing a contact metal layer for a silicidation process in a semiconductor device includes providing a substrate having a contact metal layer disposed thereon in a thermal annealing processing chamber, providing a heat energy to the contact metal layer in the thermal processing chamber, supplying a gas mixture including a nitrogen gas and a hydrogen gas while providing the heat energy to the contact layer in the thermal processing chamber, wherein the nitrogen gas and the hydrogen gas is supplied at a ratio between about 1:10 and about 1:1, and forming a metal silicide layer on the substrate. | 06-20-2013 |
20130189840 | METHODS FOR FORMING A CONTACT METAL LAYER IN SEMICONDUCTOR DEVICES - Methods for forming a contact metal layer in a contact structure in semiconductor devices are provided in the present invention. In one embodiment, a method for depositing a contact metal layer for forming a contact structure in a semiconductor device includes pulsing a deposition precursor gas mixture to a surface of a substrate disposed in a metal deposition processing chamber, pulsing a purge gas mixture to an edge of the substrate, wherein the purge gas mixture includes at least a hydrogen containing gas and an inert gas, and forming a contact metal layer on the substrate from the first deposition precursor gas mixture. | 07-25-2013 |
20130260555 | METHOD OF ENABLING SEAMLESS COBALT GAP-FILL - Methods for depositing a contact metal layer in contact structures of a semiconductor device are provided. In one embodiment, a method for depositing a contact metal layer for forming a contact structure in a semiconductor device is provided. The method comprises performing a cyclic metal deposition process to deposit a contact metal layer on a substrate and annealing the contact metal layer disposed on the substrate. The cyclic metal deposition process comprises exposing the substrate to a deposition precursor gas mixture to deposit a portion of the contact metal layer on the substrate, exposing the portion of the contact metal layer to a plasma treatment process, and repeating the exposing the substrate to a deposition precursor gas mixture and exposing the portion of the contact metal layer to a plasma treatment process until a predetermined thickness of the contact metal layer is achieved. | 10-03-2013 |
20130316533 | METHOD FOR REMOVING NATIVE OXIDE AND ASSOCIATED RESIDUE FROM A SUBSTRATE - Native oxides and associated residue are removed from surfaces of a substrate by sequentially performing two plasma cleaning processes on the substrate in a single processing chamber. The first plasma cleaning process removes native oxide formed on a substrate surface by generating a cleaning plasma from a mixture of ammonia (NH | 11-28-2013 |
20140120723 | METHODS FOR DEPOSITING FLUORINE/CARBON-FREE CONFORMAL TUNGSTEN - Provided are atomic layer deposition methods to deposit a tungsten film or tungsten-containing film using a tungsten-containing reactive gas comprising one or more of tungsten pentachloride, a compound with the empirical formula WCl | 05-01-2014 |
20140273515 | INTEGRATED PLATFORM FOR FABRICATING N-TYPE METAL OXIDE SEMICONDUCTOR (NMOS) DEVICES - Embodiments of an integrated platform for fabricating n-type metal oxide semiconductor (NMOS) devices are provided herein. In some embodiments, an integrated platform for fabricating n-type metal oxide semiconductor (NMOS) devices may include a first deposition chamber configured to deposit a first layer atop the substrate, the first layer comprising titanium oxide (TiO | 09-18-2014 |
20140295665 | METHOD FOR REMOVING NATIVE OXIDE AND ASSOCIATED RESIDUE FROM A SUBSTRATE - Native oxides and associated residue are removed from surfaces of a substrate by sequentially performing two plasma cleaning processes on the substrate in a single processing chamber. The first plasma cleaning process removes native oxide formed on a substrate surface by generating a cleaning plasma from a mixture of ammonia (NH | 10-02-2014 |