Patents by Inventor Jeff Tobin
Jeff Tobin has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20180294153Abstract: Provided apparatus and methods for back side passivation of a substrate. The systems comprise an elongate support with an open top surface forming a support ring so that when a substrate is on the support ring, a cavity is formed within the elongate support. A plasma generator is coupled to the cavity to generate a plasma within the cavity to deposit a passivation film on the back side of the substrate.Type: ApplicationFiled: June 14, 2018Publication date: October 11, 2018Inventors: Lara Hawrylchak, Jeff Tobin
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Patent number: 10020187Abstract: Provided apparatus and methods for back side passivation of a substrate. The systems comprise an elongate support with an open top surface forming a support ring so that when a substrate is on the support ring, a cavity is formed within the elongate support. A plasma generator is coupled to the cavity to generate a plasma within the cavity to deposit a passivation film on the back side of the substrate.Type: GrantFiled: November 22, 2013Date of Patent: July 10, 2018Assignee: APPLIED MATERIALS, INC.Inventors: Lara Hawrylchak, Jeff Tobin
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Publication number: 20160215392Abstract: Apparatus and methods for spatial atomic layer deposition are disclosed. The apparatus include a gas delivery system comprising a first gas flowing through a plurality of legs in fluid communication with a valve and a second gas flowing through a plurality of legs into the valves.Type: ApplicationFiled: January 20, 2016Publication date: July 28, 2016Inventors: Joseph Yudovsky, Kevin Griffin, Aaron Miller, Jeff Tobin, Eran Newman, Tatsuya E. Sato, Patricia M. Liu
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Publication number: 20140147990Abstract: Provided apparatus and methods for back side passivation of a substrate. The systems comprise an elongate support with an open top surface forming a support ring so that when a substrate is on the support ring, a cavity is formed within the elongate support. A plasma generator is coupled to the cavity to generate a plasma within the cavity to deposit a passivation film on the back side of the substrate.Type: ApplicationFiled: November 22, 2013Publication date: May 29, 2014Inventors: Lara Hawrylchak, Jeff Tobin
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Patent number: 7790633Abstract: A silicon dioxide-based dielectric layer is formed on a substrate surface by a sequential deposition/anneal technique. The deposited layer thickness is insufficient to prevent substantially complete penetration of annealing process agents into the layer and migration of water out of the layer. The dielectric layer is then annealed, ideally at a moderate temperature, to remove water and thereby fully densify the film. The deposition and anneal processes are then repeated until a desired dielectric film thickness is achieved.Type: GrantFiled: September 11, 2006Date of Patent: September 7, 2010Assignee: Novellus Systems, Inc.Inventors: Raihan M. Tarafdar, George D. Papasouliotis, Ron Rulkens, Dennis M. Hausmann, Jeff Tobin, Adrianne K. Tipton, Bunsen Nie
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Patent number: 7482247Abstract: Conformal nanolaminate dielectric deposition and etch back processes that can fill high aspect ratio (typically at least 5:1, for example 6:1), narrow width (typically sub 0.13 micron, for example 0.1 micron or less) gaps with significantly reduced incidence of voids or weak spots involve the use of any suitable confirmal dielectric deposition technique and a dry etch back. The etch back part of the process involves a single step or an integrated multi-step (for example, two-step) procedure including an anisotropic dry etch followed by an isotropic dry etch. The all dry deposition and etch back process in a single tool increases throughput and reduces handling of wafers resulting in more efficient and higher quality nanolaminate dielectric gap fill operations.Type: GrantFiled: September 19, 2006Date of Patent: January 27, 2009Assignee: Novellus Systems, Inc.Inventors: George D. Papasouliotis, Raihan M. Tarafdar, Ron Rulkins, Dennis M. Hausmann, Jeff Tobin, Adrianne K. Tipton, Bunsen Nie, Wai-Fan Yau, Brian G. Lu, Timothy M. Archer, Sasson Roger Somekh
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Method for controlling properties of conformal silica nanolaminates formed by rapid vapor deposition
Patent number: 7297608Abstract: A method employing atomic layer deposition rapid vapor deposition (RVD) conformally deposits a dielectric material on small features of a substrate surface. The resulting dielectric film is then annealed using a high density plasma (HDP) at a temperature under 500° C. in an oxidizing environment. The method includes the following three principal operations: exposing a substrate surface to an aluminum-containing precursor gas to form a substantially saturated layer of aluminum-containing precursor on the substrate surface; exposing the substrate surface to a silicon-containing precursor gas to form the dielectric film; and annealing the dielectric film in a low temperature oxygen-containing high density plasma. The resulting film has improved mechanical properties, including minimized seams, improved WERR, and low intrinsic stress, comparable to a high temperature annealing process (˜800° C.), but without exceeding the thermal budget limitations of advanced devices.Type: GrantFiled: June 22, 2004Date of Patent: November 20, 2007Assignee: Novellus Systems, Inc.Inventors: George D. Papasouliotis, Raihan M. Tarafdar, Ron Rulkens, Dennis M. Hausmann, Jeff Tobin, Adrianne K. Tipton, Bunsen Nie -
Patent number: 7294583Abstract: A method for depositing conformal dielectric films uses alkoxy silanol or silanediol precursors and oxidizing and/or hydrolyzing agents. The method produces a material with liquid-like flow properties capable of achieving improved high aspect ratio gap fill more efficiently than previous methods using alkoxysilanes since fewer oxidation reactions are required. In addition, the dielectric can be formed with or without a metal-containing catalyst/nucleation layer, so that metal content in the dielectric film can be avoided, if desired. Seams and voids are therefore avoided in gaps filled more efficiently with higher quality dielectric. In addition, the films as dense as deposited, reducing or eliminating the need for post-deposition processing (e.g., annealing).Type: GrantFiled: December 23, 2004Date of Patent: November 13, 2007Assignee: Novellus Systems, Inc.Inventors: Ron Rulkens, George D. Papasouliotis, Dennis M. Hausmann, Raihan M. Tarafdar, Bunsen Nie, Adrianne K. Tipton, Jeff Tobin
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Patent number: 7271112Abstract: Methods of forming conformal films with increased density are described. The methods may be used to improve gap fill in semiconductor device manufacturing by eliminating seams and voids. The methods involve operating at high reactant partial pressure. Additionally, film properties may be further enhanced by optimizing the temperature of the substrate during exposure to the metal-containing and/or silicon-containing precursor gases commonly used in conformal film deposition techniques such as ALD and PDL.Type: GrantFiled: December 30, 2004Date of Patent: September 18, 2007Assignee: Novellus Systems, Inc.Inventors: George D. Papasouliotis, Raihan M. Tarafdar, Adrianne K. Tipton, Ron Rulkens, Dennis M. Hausmann, Jeff Tobin
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Patent number: 7223707Abstract: A method for using ALD and RVD techniques in semiconductor manufacturing to produce a smooth nanolaminate dielectric film, in particular for filling structures with doped or undoped silica glass, uses dynamic process conditions. A dynamic process using variable substrate (e.g., wafer) temperature, reactor pressure and/or reactant partial pressure, as opposed to static process conditions through various cycles, can be used to minimize film roughness and improve gap fill performance and film properties via the elimination or reduction of seam occurrence. Overall film roughness can be reduced by operating the initial growth cycle under conditions which optimize film smoothness, and then switching to conditions that will enhance conformality, gap fill and film properties for the subsequent process cycles. Film deposition characteristics can be changed by modulating one or more of a number of process parameters including wafer temperature, reactor pressure, reactant partial pressure and combinations of these.Type: GrantFiled: December 30, 2004Date of Patent: May 29, 2007Assignee: Novellus Systems, Inc.Inventors: George D. Papasouliotis, Jeff Tobin, Ron Rulkens, Dennis M. Hausmann, Adrianne K. Tipton, Raihan M. Tarafdar, Bunsen Nie
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Patent number: 7202185Abstract: An method employing atomic layer deposition (ALD) and rapid vapor deposition (RVD) techniques conformally deposits a dielectric material on small features of a substrate surface. The resulting dielectric film has a low dielectric constant and a high degree of surface smoothness. The method includes the following three principal operations: exposing a substrate surface to an aluminum-containing precursor gas to form a saturated layer of aluminum-containing precursor on the substrate surface; exposing the substrate surface to an oxygen-containing gas to oxidize the layer of aluminum-containing precursor; and exposing the substrate surface to a silicon-containing precursor gas to form the dielectric film. Generally an inert gas purge is employed between the introduction of reactant gases to remove byproducts and unused reactants. These operations can be repeated to deposit multiple layers of dielectric material until a desired dielectric thickness is achieved.Type: GrantFiled: June 22, 2004Date of Patent: April 10, 2007Assignee: Novellus Systems, Inc.Inventors: Dennis M. Hausmann, Jeff Tobin, George D. Papasouliotis, Ron Rulkens, Raihan M. Tarafdar, Adrianne K. Tipton, Bunsen Nie
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Patent number: 7148155Abstract: A silicon dioxide-based dielectric layer is formed on a substrate surface by a sequential deposition/anneal technique. The deposited layer thickness is insufficient to prevent substantially complete penetration of annealing process agents into the layer and migration of water out of the layer. The dielectric layer is then annealed, ideally at a moderate temperature, to remove water and thereby fully densify the film. The deposition and anneal processes are then repeated until a desired dielectric film thickness is achieved.Type: GrantFiled: October 26, 2004Date of Patent: December 12, 2006Assignee: Novellus Systems, Inc.Inventors: Raihan M. Tarafdar, George D. Papasouliotis, Ron Rulkens, Dennis M. Hausmann, Jeff Tobin, Adrianne K. Tipton, Bunsen Nie
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Patent number: 7097878Abstract: A method employing rapid vapor deposition (RVD) deposits a dielectric material on small features of a substrate surface. The resulting dielectric film is thicker, faster growing, shows better gap fill performance and has improved film properties compared to films resulting from silicon precursors with identical alkoxy substituents on silicon. The method includes the following two principal operations: exposing a substrate surface to a metal-containing precursor gas to form a substantially saturated layer of metal-containing precursor on the substrate surface; and exposing the substrate surface to a mixed alkoxy-substituted silicon-containing precursor gas to form the dielectric film.Type: GrantFiled: June 22, 2004Date of Patent: August 29, 2006Assignee: Novellus Systems, Inc.Inventors: Ron Rulkens, Dennis M. Hausmann, Raihan M. Tarafdar, George D. Papasouliotis, Bunsen Nie, Adrianne K. Tipton, Jeff Tobin
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Patent number: 6314885Abstract: A deposited ink drop imposition proofing print sheet that includes two deposited ink drop printable faces each having a periphery defined by an ordered series of first, second, third, and fourth edges. These two faces have properties resulting from a deposited ink drop print-enhancing treatment. The sheet defines two first registration openings. The first is located closer to the first sheet edge than to the third sheet edge and closer to the second sheet edge than to the fourth sheet edge. The second is located closer to the first sheet edge than to the third sheet edge and closer to the fourth sheet edge than to the second sheet edge. In one embodiment, an inner edge of the first registration opening is nominally separated from an inner edge of the second registration opening by at least 36 inches.Type: GrantFiled: August 3, 1999Date of Patent: November 13, 2001Assignee: Iris Graphics, Inc.Inventors: Jeff Tobin, Robert Bullock
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Patent number: 6299160Abstract: An imposition printer and associated method. The printer can disengage its rollers from a print substrate feed path, deploy a pair of registration stops, and align a print substrate by engaging the print substrate with the stops. The rollers can then engage the substrate in an aligned position, and the registration stops can be retracted. After they are engaged, the same rollers can advance the substrate as a deposited ink drop print head deposits ink on it.Type: GrantFiled: March 4, 1999Date of Patent: October 9, 2001Assignee: Iris Graphics, Inc.Inventors: Jeff Tobin, Robert Bullock