Class / Patent application number | Description | Number of patent applications / Date published |
438773000 | In atmosphere containing water vapor (i.e., wet oxidation) | 13 |
20090061647 | CURING METHODS FOR SILICON DIOXIDE THIN FILMS DEPOSITED FROM ALKOXYSILANE PRECURSOR WITH HARP II PROCESS - Methods of curing a silicon oxide layer on a substrate are provided. The methods may include the processes of providing a semiconductor processing chamber and a substrate and forming an silicon oxide layer overlying at least a portion of the substrate, the silicon oxide layer including carbon species as a byproduct of formation. The methods may also include introducing an acidic vapor into the semiconductor processing chamber, the acidic vapor reacting with the silicon oxide layer to remove the carbon species from the silicon oxide layer. The methods may also include removing the acidic vapor from the semiconductor processing chamber. Systems to deposit a silicon oxide layer on a substrate are also described. | 03-05-2009 |
20090081884 | METHOD OF IMPROVING OXIDE GROWTH RATE OF SELECTIVE OXIDATION PROCESSES - A method for selective oxidation of silicon containing materials in a semiconductor device is disclosed and claimed. In one aspect, a rapid thermal processing apparatus is used to selectively oxidize a substrate by in-situ steam generation at high pressure in a hydrogen rich atmosphere. Other materials, such as metals and barrier layers, in the substrate are not oxidized. | 03-26-2009 |
20090088000 | METHOD FOR GROWING AN OXYNITRIDE FILM ON A SUBSTRATE - A method for growing an oxynitride film on a substrate includes positioning the substrate in a process chamber, heating the process chamber, flowing a first wet process gas comprising water vapor into the process chamber, and reacting the substrate with the first wet process gas to grow an oxide film on the substrate. The method further includes flowing a second wet process gas comprising water vapor and a nitriding gas comprising nitric oxide into the process chamber, and reacting the oxide film and the substrate with the second wet process gas to grow an oxynitride film. In another embodiment, the method further comprises annealing the substrate containing the oxynitride film in an annealing gas. According to one embodiment of the method where the substrate is silicon, a silicon oxynitride film can be formed that exhibits a nitrogen peak concentration of approximately 3 atomic % or greater. | 04-02-2009 |
20090269939 | CYCLICAL OXIDATION PROCESS - Methods for selective oxidation using pulses of an oxidizing agent are described. An oxidation process is provided in which a pulse of an oxidizing agent is followed by a flow of a purging agent. The pulse of the oxidizing agent and the flow of the purging agent forms a cycle that can be repeated to allow for desired oxidation on parts of a structure, e.g., a transistor structure, while preventing or limiting undesired oxidation on other parts of the structure. In addition, during the oxidation, a nitrogen source such as N | 10-29-2009 |
20110151677 | WET OXIDATION PROCESS PERFORMED ON A DIELECTRIC MATERIAL FORMED FROM A FLOWABLE CVD PROCESS - Methods of performing a wet oxidation process on a silicon containing dielectric material filling within trenches or vias defined within a substrate are provided. In one embodiment, a method of forming a dielectric material on a substrate includes forming a dielectric material on a substrate by a flowable CVD process, curing the dielectric material disposed on the substrate, performing a wet oxidation process on the dielectric material disposed on the substrate, and forming an oxidized dielectric material on the substrate. | 06-23-2011 |
20110230060 | METHOD OF IMPROVING OXIDE GROWTH RATE OF SELECTIVE OXIDATION PROCESSES - A method for selective oxidation of silicon containing materials in a semiconductor device is disclosed and claimed. In one aspect, a rapid thermal processing apparatus is used to selectively oxidize a substrate by in-situ steam generation at high pressure in a hydrogen rich atmosphere. Other materials, such as metals and barrier layers, in the substrate are not oxidized. | 09-22-2011 |
20120142198 | WET OXIDATION PROCESS PERFORMED ON A DIELECTRIC MATERIAL FORMED FROM A FLOWABLE CVD PROCESS - Methods of performing a wet oxidation process on a silicon containing dielectric material filling within trenches or vias defined within a substrate are provided. In one embodiment, a method of forming a dielectric material on a substrate includes forming a dielectric material on a substrate by a flowable CVD process, curing the dielectric material disposed on the substrate, performing a wet oxidation process on the dielectric material disposed on the substrate, and forming an oxidized dielectric material on the substrate. | 06-07-2012 |
20120156891 | SILICON DIOXIDE FILM FABRICATING PROCESS - A silicon dioxide film fabricating process includes the following steps. Firstly, a substrate is provided. A rapid thermal oxidation-in situ steam generation process is performed to form a silicon dioxide film on the substrate. An annealing process is performed to anneal the substrate in a first gas mixture at a temperature in the range of 1000° C. to 1100° C. | 06-21-2012 |
20140295675 | SILICON OXIDE FILM FORMING METHOD AND SILICON OXIDE FILM FORMING APPARATUS - A silicon oxide film forming method includes performing a set one or more times, the set including: a standby process in which a workpiece is accommodated into and recovered from a boat; a load process in which the workpiece accommodated in the boat is loaded into a reaction chamber; a silicon oxide film formation process in which a silicon oxide film is formed on the workpiece accommodated within the reaction chamber; and an unload process in which the workpiece having the silicon oxide film is unloaded from the reaction chamber. In at least one of the unload process, the standby process and the load process, a gas containing water vapor is supplied into the reaction chamber while an interior of the reaction chamber is heated. | 10-02-2014 |
20140349491 | METHODS AND APPARATUS FOR SELECTIVE OXIDATION OF A SUBSTRATE - Methods for improving selective oxidation of polysilicon against silicon nitride in a process chamber are provided herein. In some embodiments, a method of selectively oxidizing a substrate disposed within a process chamber includes exposing a substrate having an exposed polysilicon layer and an exposed silicon nitride layer to a hydrogen-containing gas; heating the substrate to a process temperature of at least about 850 degrees Celsius; adding an oxygen containing gas to the process chamber while maintaining the substrate at the process temperature to create a mixture of the hydrogen-containing gas and the oxygen-containing gas; and exposing the substrate to the mixture while at the process temperature to selectively form an oxide layer atop the polysilicon layer substantially without forming an oxide layer atop the silicon nitride layer. | 11-27-2014 |
20150064930 | PROCESS OF MANUFACTURING THE GATE OXIDE LAYER - A process of manufacturing the gate oxide layer, which uses the wet oxidation by deuterium to form gate oxide layer, wherein the nitriding treatment is applied to formed gate oxide layer by high temperature annealing process, the stable Si-D bonds is formed on surface of the gate oxide layer to reduce silicon dangling bonds, which reduce the defect of the gate oxide interface and lower the interface defect density of the gate oxide layer and the charge density effectively to avoid NBTI, is provided. | 03-05-2015 |
20150140835 | SUBSTRATE PROCESSING APPARATUS, METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE, AND RECORDING MEDIUM - A substrate processing apparatus is disclosed. The substrate processing apparatus includes a process chamber configured to accommodate a substrate; a gas supply unit configured to supply a process gas into the process chamber; a lid member configured to block an end portion opening of the process chamber; an end portion heating unit installed around a side wall of an end portion of the process chamber; and a thermal conductor installed on a surface of the lid member in an inner side of the process chamber, and configured to be heated by the end portion heating unit. | 05-21-2015 |
20150364320 | LATERAL WAFER OXIDATION SYSTEM WITH IN-SITU VISUAL MONITORING AND METHOD THEREFOR - Wafer oxidation apparatus for selective oxidation of a semiconductor workpiece has an oxidation chamber. The oxidation chamber is heated by external infrared heating lamps. A chuck assembly is disposed within the oxidation chamber and configured to be approximately thermally isolated from the oxidation chamber. Carrier gas pathways deliver heated carrier gasses to the oxidation chamber at variable rates for oxidation uniformity. | 12-17-2015 |