Patents by Inventor Anthony R. Schepis

Anthony R. Schepis 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).

  • Patent number: 12566383
    Abstract: A method of processing a substrate that includes: depositing a photoresist layer over the substrate; performing a cyclic direct-write lithographic process using a direct-write lithography tool, the cyclic direct-write lithographic process including a plurality of cycles, each of the plurality of cycles including: exposing the photoresist layer to a patterned actinic radiation without using a photomask, defining one of a plurality of coupon regions, where the plurality of coupon regions are configured to generate a plurality of test samples on the substrate for evaluating process conditions of a fabrication process; exposing the one of the plurality of coupon regions; and performing the fabrication process on the one of the plurality of coupon regions.
    Type: Grant
    Filed: August 31, 2021
    Date of Patent: March 3, 2026
    Assignee: TOKYO ELECTRON LIMITED
    Inventor: Anthony R. Schepis
  • Patent number: 12541155
    Abstract: Aspects of the present disclosure provide an inspection system, which can include an image module and processing circuitry. The imaging module can image a wafer with a first light beam and a second light beam. The first light beam can be coaxially aligned with the second light beam, and image a first pattern located on a front side of a wafer to form a first image. The second light beam can image a second pattern located below the first pattern to form a second image via quantum tunneling imaging or infrared transmission imaging. The second light beam can have power sufficient to pass through at least a portion of a thickness of the wafer and reach the second pattern. The processing circuitry can perform image analysis on the first image and the second image to calculate an overlay value of the first and second patterns and/or defects of the wafer.
    Type: Grant
    Filed: August 17, 2021
    Date of Patent: February 3, 2026
    Assignee: Tokyo Electron Limited
    Inventors: Anton J. Devilliers, Anthony R. Schepis, David Conklin
  • Patent number: 12505998
    Abstract: Methods described herein address the chuck degradation challenge that can result in wafer distortion upon wafer coupling, leading to downstream fabrication issues. Techniques include actively monitoring wear of a chuck and counteracting chuck degradation by wafer shape manipulation to maintain an ideal working surface. Techniques include using chuck-based flatness metrology and/or modeling based on previous wafer level results and/or historical database of chuck wear information.
    Type: Grant
    Filed: October 17, 2022
    Date of Patent: December 23, 2025
    Assignee: Tokyo Electron Limited
    Inventors: Anthony R. Schepis, Daniel J. Fulford, David C. Conklin, Anton J. Devilliers
  • Patent number: 12455511
    Abstract: Aspects of the present disclosure provide a method for optimizing wafer shape. For example, the method can include receiving a wafer having a working surface for one or more devices to be fabricated thereon and a backside surface opposite to the working surface, measuring the wafer to identify bow measurement of the wafer, and forming a stress-modification film on the backside surface of the wafer. The stress-modification film can be reactive to heat such that applied heat modifies an internal stress of the stress-modification film. The method can also include applying a pattern of heat onto the stress-modification film to modify the internal stress of the stress-modification film, the pattern of heat corresponding to the bow measurement.
    Type: Grant
    Filed: August 17, 2022
    Date of Patent: October 28, 2025
    Assignee: Tokyo Electron Limited
    Inventors: Daniel J. Fulford, Anthony R. Schepis, Mark I. Gardner, H. Jim Fulford, Anton J. DeVilliers
  • Patent number: 12393125
    Abstract: Aspects of the present disclosure provide an inspection system, which can include an image module and processing circuitry. The imaging module can image a wafer with a first light beam and a second light beam. The first light beam can be coaxially aligned with the second light beam, and image a first pattern located on a front side of a wafer to form a first image. The second light beam can image a second pattern located below the first pattern to form a second image via quantum tunneling imaging or infrared transmission imaging. The second light beam can have power sufficient to pass through at least a portion of a thickness of the wafer and reach the second pattern. The processing circuitry can perform image analysis on the first image and the second image to calculate an overlay value of the first and second patterns and/or defects of the wafer.
    Type: Grant
    Filed: August 17, 2021
    Date of Patent: August 19, 2025
    Assignee: Tokyo Electron Limited
    Inventors: Anton J. Devilliers, Anthony R. Schepis, David Conklin
  • Patent number: 12394618
    Abstract: Techniques herein include methods for coating a single layer actuator film or multi-layer actuator film on the backside of a wafer. The actuator film includes one or more chemical actuators. Chemical actuators are various molecules, crystals, chemical compounds and other chemical compositions that are capable of imposing directional stress in response to application of an external stimulus on the chemical actuator. The external stimulus can include a particular wavelength of light or polarization of light, or heat (or directed infrared radiation) or load, which can include load-responsive actuation or pressure-responsive actuation.
    Type: Grant
    Filed: March 2, 2022
    Date of Patent: August 19, 2025
    Assignee: Tokyo Electron Limited
    Inventors: Charlotte Cutler, Michael Murphy, Anthony R. Schepis
  • Publication number: 20250259943
    Abstract: Aspects of the present disclosure provide a die-to-wafer (D2W) shape correction and bonding method. For example, the method can include providing a wafer and a chiplet, forming a shape control layer on at least one of the wafer and the chiplet, activating the shape control layer according to a bow measurement of the at least one of the wafer and the chiplet to modify an internal stress of the shape control layer, and bonding the wafer and the chiplet, at least one of which has the shape control layer formed thereon that is activated according to the bow measurement of the at least one of the wafer and the chiplet.
    Type: Application
    Filed: February 13, 2024
    Publication date: August 14, 2025
    Applicant: Tokyo Electron Limited
    Inventors: Anthony R. SCHEPIS, David POWER, David CONKLIN, Anton J. DEVILLIERS
  • Patent number: 12381093
    Abstract: A device includes a first set of modules configured for wafer shape correction and a second set of modules configured for wafer bonding. The first set of modules includes a metrology module configured to measure wafer shape data of a first wafer and a second wafer, including relative z-height values of the first wafer and the second wafer. A stressor film deposition module is configured to form a first stressor film on the first wafer. A stressor film modification module is configured to modify the first stressor film based on a first modification map that defines adjustments to internal stresses of the first wafer and is generated based on the wafer shape data. The second set of modules includes an alignment module configured to align the first wafer with the second wafer, and a bonding module configured to bond the first wafer to the second wafer.
    Type: Grant
    Filed: August 10, 2022
    Date of Patent: August 5, 2025
    Assignee: Tokyo Electron Limited
    Inventors: Anthony R. Schepis, Andrew Weloth, David C. Conklin, Anton J. Devilliers
  • Patent number: 12374562
    Abstract: A method, for bonding a first wafer to a second wafer, includes generating a first modification map based on wafer shape data of the first wafer and the second wafer. The first modification map defines adjustments to internal stresses of the first wafer. A first wafer shape of the first wafer is modified by forming a first stressor film on the first wafer based on the first modification map. The first wafer is aligned with the second wafer after the modifying. The first wafer is bonded to the second wafer.
    Type: Grant
    Filed: August 10, 2022
    Date of Patent: July 29, 2025
    Assignee: Tokyo Electron Limited
    Inventors: Anthony R. Schepis, Andrew Weloth, David C. Conklin, Anton J. Devilliers
  • Publication number: 20250140614
    Abstract: Aspects of the present disclosure provide a method for creating a product-like surrogate test wafer that mimic a product wafer. For example, the method can include providing a second wafer, forming a stress control layer on the second wafer, and activating the stress control layer according to a first bow measurement of a first wafer to modify an internal stress of the stress control layer such that the second wafer and the stress control layer form a surrogate wafer that has a second bow measurement substantially equal to the first bow measurement.
    Type: Application
    Filed: October 27, 2023
    Publication date: May 1, 2025
    Applicant: Tokyo Electron Limited
    Inventor: Anthony R. SCHEPIS
  • Patent number: 12001147
    Abstract: Aspects of the present disclosure provide a method for improving overlay alignment of patterning by correcting wafer shape. For example, the method can include receiving a wafer having a working surface with at least partially-fabricated semiconductor devices, and a backside surface opposite to the working surface. The method can also include forming a first stressor film on the backside surface. The first stressor film can modify overlay alignment of the working surface in a first direction across the working surface of the wafer. The method can also include forming one or more first semiconductor structures on the working surface of the wafer. The first semiconductor structures are aligned in the first direction.
    Type: Grant
    Filed: August 16, 2022
    Date of Patent: June 4, 2024
    Assignee: Tokyo Electron Limited
    Inventors: Daniel J. Fulford, Anthony R. Schepis, Mark I. Gardner, Anton J. Devilliers, H. Jim Fulford
  • Patent number: 11791167
    Abstract: A method of processing a substrate includes forming a channel through a substrate, depositing a layer of polycrystalline silicon on sidewalls of the channel, and oxidizing uncovered surfaces of the polycrystalline silicon with an oxidation agent. The oxidizing agent causes formation of an oxidized layer, the oxidized layer having a uniform thickness on uncovered surfaces of the polycrystalline silicon. The method includes removing the oxidized layer from the channel with a removal agent, and repeating steps of oxidizing uncovered surfaces and removing the oxidized layer until removing a predetermined amount of the layer of polycrystalline silicon.
    Type: Grant
    Filed: December 14, 2020
    Date of Patent: October 17, 2023
    Assignee: Tokyo Electron Limited
    Inventors: Anthony R. Schepis, Hoyoung Kang
  • Publication number: 20230326738
    Abstract: Methods described herein address the chuck degradation challenge that can result in wafer distortion upon wafer coupling, leading to downstream fabrication issues. Techniques include actively monitoring wear of a chuck and counteracting chuck degradation by wafer shape manipulation to maintain an ideal working surface. Techniques include using chuck-based flatness metrology and/or modeling based on previous wafer level results and/or historical database of chuck wear information.
    Type: Application
    Filed: October 17, 2022
    Publication date: October 12, 2023
    Applicant: Tokyo Electron Limited
    Inventors: Anthony R. SCHEPIS, Daniel J. FULFORD, David C. CONKLIN, Anton J. DEVILLIERS
  • Publication number: 20230326814
    Abstract: A device includes a first set of modules configured for wafer shape correction and a second set of modules configured for wafer bonding. The first set of modules includes a metrology module configured to measure wafer shape data of a first wafer and a second wafer, including relative z-height values of the first wafer and the second wafer. A stressor film deposition module is configured to form a first stressor film on the first wafer. A stressor film modification module is configured to modify the first stressor film based on a first modification map that defines adjustments to internal stresses of the first wafer and is generated based on the wafer shape data. The second set of modules includes an alignment module configured to align the first wafer with the second wafer, and a bonding module configured to bond the first wafer to the second wafer.
    Type: Application
    Filed: August 10, 2022
    Publication date: October 12, 2023
    Applicant: Tokyo Electron Limited
    Inventors: Anthony R. SCHEPIS, Andrew WELOTH, David C. CONKLIN, Anton J. DEVILLIERS
  • Publication number: 20230326767
    Abstract: A method, for bonding a first wafer to a second wafer, includes generating a first modification map based on wafer shape data of the first wafer and the second wafer. The first modification map defines adjustments to internal stresses of the first wafer. A first wafer shape of the first wafer is modified by forming a first stressor film on the first wafer based on the first modification map. The first wafer is aligned with the second wafer after the modifying. The first wafer is bonded to the second wafer.
    Type: Application
    Filed: August 10, 2022
    Publication date: October 12, 2023
    Applicant: Tokyo Electron Limited
    Inventors: Anthony R. SCHEPIS, Andrew WELOTH, David C. CONKLIN, Anton J. DEVILLIERS
  • Patent number: 11776808
    Abstract: A method for planarizing a substrate includes: receiving a substrate having microfabricated structures that differ in height across the working surface of the substrate that define a non-planar topography, depositing a first layer that includes a solubility-shifting agent on the working surface of the substrate by spin-on deposition in a non-planar fashion, exposing the first layer to a first pattern of actinic radiation based on the topography, developing the first layer using a predetermined solvent, and depositing a second layer over the working surface of the substrate that has a greater planarity as compared to the first layer prior to developing the first layer. The first pattern of radiation changes a solubility of the first layer such that upper regions of the non-planar topography of the first layer are soluble to the predetermined solvent.
    Type: Grant
    Filed: December 15, 2020
    Date of Patent: October 3, 2023
    Assignee: TOKYO ELECTRON LIMITED
    Inventors: Anthony R. Schepis, Anton deVilliers
  • Publication number: 20230251584
    Abstract: Aspects of the present disclosure provide a method for optimizing wafer shape. For example, the method can include receiving a wafer having a working surface for one or more devices to be fabricated thereon and a backside surface opposite to the working surface, measuring the wafer to identify bow measurement of the wafer, and forming a stress-modification film on the backside surface of the wafer. The stress-modification film can be reactive to heat such that applied heat modifies an internal stress of the stress-modification film. The method can also include applying a pattern of heat onto the stress-modification film to modify the internal stress of the stress-modification film, the pattern of heat corresponding to the bow measurement.
    Type: Application
    Filed: August 17, 2022
    Publication date: August 10, 2023
    Applicant: Tokyo Electron Limited
    Inventors: Daniel J. FULFORD, Anthony R. SCHEPIS, Mark I. GARDNER, H. Jim FULFORD, Anton J. DEVILLIERS
  • Publication number: 20230251574
    Abstract: Aspects of the present disclosure provide a method for optimizing wafer shape. For example, the method can include receiving a wafer having a working surface for one or more devices to be fabricated thereon and a backside surface opposite to the working surface, measuring the wafer to identify bow measurement of the wafer, and forming a first stress-modification film on the backside surface. The first stress-modification film can be reactive to a first wavelength of light in that exposure to the first wavelength of light modifies an internal stress of the first stress-modification film. The method can further include exposing the first stress-modification film to a pattern of the first wavelength of light to modify the internal stress of the first stress-modification film. The pattern of the first wavelength of light corresponds to the bow measurement.
    Type: Application
    Filed: August 18, 2022
    Publication date: August 10, 2023
    Applicant: Tokyo Electron Limited
    Inventors: Anthony R. SCHEPIS, Daniel J. FULFORD, Mark I. GARDNER, H. Jim FULFORD, Anton J. DEVILLIERS
  • Patent number: 11721551
    Abstract: Aspects of the present disclosure provide a method for forming a chiplet onto a semiconductor structure. For example, the method can include providing a first semiconductor structure having a first circuit and a first wiring structure formed on a first side thereof. The method can further include attaching the first side of the first semiconductor structure to a carrier substrate. The method can further include forming a stress film on a second side of the first semiconductor structure. The method can further include separating the carrier substrate from the first semiconductor structure. The method can further include cutting the stress film and the first semiconductor structure to define at least one chiplet. The method can further include bonding the at least one chiplet to a second semiconductor structure having a second circuit and a second wiring structure such that the second wiring structure is connected to the first wiring structure.
    Type: Grant
    Filed: September 13, 2021
    Date of Patent: August 8, 2023
    Assignee: Tokyo Electron Limited
    Inventors: Anton J. Devilliers, Daniel J. Fulford, Anthony R. Schepis, Mark I. Gardner, H. Jim Fulford
  • Patent number: 11688642
    Abstract: Aspects of the present disclosure provide a method for forming a chiplet onto a semiconductor structure. The method can include providing a first semiconductor structure having a first circuit and a first wiring structure formed on a first side thereof, and attaching the first side to a carrier substrate. The method can further include forming a composite of a first stress film and a second stress film on a second side of the first semiconductor structure, and separating the carrier substrate from the first semiconductor structure. The method can further include cutting the composite of the first stress film and the second stress film and the first semiconductor structure to define at least one chiplet, and bonding the at least one chiplet to a second semiconductor structure that has a second circuit and a second wiring structure such that the second wiring structure is connected to the first wiring structure.
    Type: Grant
    Filed: September 27, 2021
    Date of Patent: June 27, 2023
    Assignee: Tokyo Electron Limited
    Inventors: Anton J. Devilliers, Daniel J. Fulford, Anthony R. Schepis, Mark I. Gardner, H. Jim Fulford