Patent application number | Description | Published |
20080268645 | METHOD FOR FRONT END OF LINE FABRICATION - In one embodiment, a method for removing native oxides from a substrate surface is provided which includes supporting a substrate containing silicon oxide within a processing chamber, generating a plasma of reactive species from a gas mixture within the processing chamber, cooling the substrate to a first temperature of less than about 65° C. within the processing chamber, and directing the reactive species to the cooled substrate to react with the silicon oxide thereon while forming a film on the substrate. The film usually contains ammonium hexafluorosilicate. The method further provides positioning the substrate in close proximity to a gas distribution plate, and heating the substrate to a second temperature of about 100° C. or greater within the processing chamber to sublimate or remove the film. The gas mixture may contain ammonia, nitrogen trifluoride, and a carrier gas. | 10-30-2008 |
20080295872 | SUBSTRATE CLEANING CHAMBER AND COMPONENTS - A substrate cleaning chamber comprises various components, such as for example, a consumable ceramic liner, substrate heating pedestal, and process kit. The consumable ceramic liner is provided for connecting a gas outlet channel of a remote gas energizer to a gas inlet channel of a substrate cleaning chamber. The substrate heating pedestal comprises an annular plate having a substrate receiving surface with a plurality of ceramic balls positioned in an array of recesses. A process kit comprises a top plate, top liner, gas distributor plate, bottom liner, and focus ring. | 12-04-2008 |
20090111280 | METHOD FOR REMOVING OXIDES - A method for removing native oxides from a substrate surface is provided. In one embodiment, the method comprises positioning a substrate having an oxide layer into a processing chamber, generating a plasma of a reactive species from a gas mixture within the processing chamber, exposing the substrate to the reactive species while forming a volatile film on the substrate and maintaining the substrate at a temperature below 65° C., heating the substrate to a temperature of at least about 75° C. to vaporize the volatile film and remove the oxide layer, and depositing a first layer on the substrate after heating the substrate. | 04-30-2009 |
20090201622 | Detachable electrostatic chuck for supporting a substrate in a process chamber - A substrate support has an electrostatic chuck comprising an electrostatic puck with a dielectric covering an electrode capable of being charged to energize a process gas. The chuck has a frontside surface to receive a substrate and a base plate having an annular flange. A spring loaded heat transfer plate contacts the base plate, and has a fluid channel comprising first and second spiral channels. A pedestal is below the heat transfer plate. | 08-13-2009 |
20110223755 | METHOD FOR REMOVING OXIDES - A method for removing native oxides from a substrate surface is provided. In one embodiment, the method comprises positioning a substrate having an oxide layer into a processing chamber, generating a plasma of a reactive species from a gas mixture within the processing chamber, exposing the substrate to the reactive species while forming a volatile film on the substrate and maintaining the substrate at a temperature below 65° C., heating the substrate to a temperature of at least about 75° C. to vaporize the volatile film and remove the oxide layer, and depositing a first layer on the substrate after heating the substrate. | 09-15-2011 |
20110232845 | SUBSTRATE CLEANING CHAMBER AND COMPONENTS - A consumable ceramic liner can be used for connecting a gas outlet channel of a remote chamber to a gas inlet channel of a substrate cleaning chamber. The ceramic liner comprises an inlet cylinder having an outer diameter sized to fit in the gas outlet channel of the remote chamber, and an outlet cylinder connected to the gas inlet channel of the substrate cleaning chamber. A conical flare joins the inlet cylinder to the outlet cylinder. | 09-29-2011 |
20120244704 | METHOD FOR REMOVING OXIDES - A method for removing native oxides from a substrate surface is provided. In one embodiment, the method comprises positioning a substrate having an oxide layer into a processing chamber, exposing the substrate to a gas mixture while forming a volatile film on the substrate and maintaining the substrate at a temperature below 65° C., heating the substrate to a temperature of at least about 75° C. to sublimate the volatile film and remove the oxide layer, and depositing a first layer on the substrate after heating the substrate. | 09-27-2012 |
20120258602 | Method for Metal Deposition Using Hydrogen Plasma - Methods for formation and treatment of pure metal layers using CVD and ALD techniques are provided. In one or more embodiments, the method includes forming a metal precursor layer and treating the metal precursor layer to a hydrogen plasma to reduce the metal precursor layer to form a metal layer. In one or more embodiments, treating the metal precursor layer includes exposing the metal precursor layer to a high frequency-generated hydrogen plasma. Methods of preventing a hydrogen plasma from penetrating a metal precursor layer are also provided. | 10-11-2012 |
20130256126 | SUBSTRATE SUPPORT WITH RADIO FREQUENCY (RF) RETURN PATH - Apparatus for processing substrates are provided herein. In some embodiments, an apparatus for processing a substrate includes a substrate support that may include a dielectric member having a surface to support a substrate thereon; one or more first conductive members disposed below the dielectric member and having a dielectric member facing surface adjacent to the dielectric member; and a second conductive member disposed about and contacting the one or more first conductive members such that RF energy provided to the substrate by an RF source returns to the RF source by traveling radially outward from the substrate support along the dielectric member facing surface of the one or more first conductive members and along a first surface of the second conductive member disposed substantially parallel to a peripheral edge surface of the one or more first conductive members after travelling along the dielectric layer facing surface. | 10-03-2013 |
20130330920 | METHOD AND APPARATUS FOR SUBSTRATE PRECLEAN WITH HYDROGEN CONTAINING HIGH FREQUENCY RF PLASMA - A high-frequency, hydrogen-based radio-frequency (RF) plasma is used to reduce a metal oxide and other contaminant disposed in an aperture that is formed in an ultra-low k dielectric material. Because the frequency of the plasma is at least about 40 MHz and the primary gas in the plasma is hydrogen, metal oxide can be advantageously removed without damaging the dielectric material. | 12-12-2013 |
20140076234 | MULTI CHAMBER PROCESSING SYSTEM - A multi-chamber processing system includes a transfer chamber, a first processing chamber outfitted to perform CVD, a second processing chamber, and a robot positioned to transfer substrates between the transfer chamber, the first processing chamber, and the second processing chamber. The second processing chamber may include one or a combination of a first electrode and a second electrode comprising a plasma cavity formed therein. | 03-20-2014 |
20140269826 | IN-SITU TEMPERATURE MEASUREMENT IN A NOISY ENVIRONMENT - Disclosed are method and apparatus for treating a substrate. The apparatus is a dual-function process chamber that may perform both a material process and a thermal process on a substrate. The chamber has an annular radiant source disposed between a processing location and a transportation location of the chamber. Lift pins have length sufficient to maintain the substrate at the processing location while the substrate support is lowered below the radiant source plane to afford radiant heating of the substrate. One or more lift pins has a light pipe disposed therein to collect radiation emitted or transmitted by the substrate when the lift pin contacts the substrate surface. | 09-18-2014 |