Patents by Inventor Dries Dictus

Dries Dictus 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: 12577466
    Abstract: Development of resists are useful, for example, to form a patterning mask in the context of high-resolution patterning. Development can be accomplished using an organic vapor such as a carboxylic acid. In some implementations, the organic vapor is trifluoroacetic acid. In some implementations, the organic vapor is hexafluoro-acetylacetone. A metal-containing resist film such as an EUV-sensitive organo-metal oxide may be deposited on a semiconductor substrate using a dry or wet deposition technique. The metal-containing resist film on the semiconductor substrate may be developed using the organic vapor, or residue of metal-containing resist material formed on surfaces of a process chamber may be removed using the organic vapor.
    Type: Grant
    Filed: December 3, 2021
    Date of Patent: March 17, 2026
    Assignee: Lam Research Corporation
    Inventors: Dries Dictus, Chenghao Wu, Eric Calvin Hansen, Timothy William Weidman
  • Publication number: 20260068630
    Abstract: A metal interconnect structure is doped with zinc, indium, or gallium using top-down doping processes to improve diffusion barrier properties with minimal impact on line resistance. Dopant is introduced prior to metallization or after metallization. Dopant may be introduced by chemical vapor deposition on a liner layer at an elevated temperature prior to metallization, by chemical vapor deposition on a metal feature at an elevated temperature after metallization, or by electroless deposition on a copper feature after metallization. Application of elevated temperatures causes the metal interconnect structure to be doped and form a self-formed barrier layer or strengthen an existing diffusion barrier layer.
    Type: Application
    Filed: November 10, 2025
    Publication date: March 5, 2026
    Inventors: Aniruddha Joi, Dries Dictus, Yezdi Dordi
  • Patent number: 12564039
    Abstract: A metal interconnect structure is doped with zinc, indium, or gallium using top-down doping processes to improve diffusion barrier properties with minimal impact on line resistance. Dopant is introduced prior to metallization or after metallization. Dopant may be introduced by chemical vapor deposition on a liner layer at an elevated temperature prior to metallization, by chemical vapor deposition on a metal feature at an elevated temperature after metallization, or by electroless deposition on a copper feature after metallization. Application of elevated temperatures causes the metal interconnect structure to be doped and form a self-formed barrier layer or strengthen an existing diffusion barrier layer.
    Type: Grant
    Filed: November 20, 2020
    Date of Patent: February 24, 2026
    Assignee: Lam Research Corporation
    Inventors: Aniruddha Joi, Dries Dictus, Yezdi Dordi
  • Publication number: 20250271782
    Abstract: Dry development or dry removal of metal-containing extreme ultraviolet radiation (EUV) photoresist is performed in atmospheric conditions or performed in process tools without vacuum equipment. Dry removal of the metal-containing EUV photoresist may be performed under atmospheric pressure or over-atmospheric pressure. Dry removal of the metal-containing EUV photoresist may be performed with exposure to an air environment or with non-oxidizing gases. A process chamber or module may be modified or integrated to perform dry removal of the metal-containing EUV photoresist with baking, wafer cleaning, wafer treatment, or other photoresist processing function. In some embodiments, the process chamber for dry removal of the metal-containing EUV photoresist includes a heating assembly for localized heating of a semiconductor substrate and a movable discharge nozzle for localized gas delivery above the semiconductor substrate.
    Type: Application
    Filed: April 15, 2025
    Publication date: August 28, 2025
    Inventors: Dries DICTUS, Timothy William WEIDMAN
  • Publication number: 20250271766
    Abstract: The present disclosure relates to the use of a metal chelator to treat an exposed photoresist film. In particular embodiments, the metal chelator is employed to remove an interfacial area that is disposed between exposed and unexposed areas or disposed within an exposed area, thereby enhancing patterning quality.
    Type: Application
    Filed: May 8, 2025
    Publication date: August 28, 2025
    Inventors: Eric Calvin HANSEN, Timothy William WEIDMAN, Chenghao WU, Kevin Li GU, Dries DICTUS
  • Publication number: 20250250485
    Abstract: Development of resists are useful, for example, to form a patterning mask in the context of high-resolution patterning. Development can be accomplished using an organic vapor such as a carboxylic acid. In some implementations, the organic vapor is trifluoroacetic acid. In some implementations, the organic vapor is hexafluoro-acetylacetone. A metal-containing resist film such as an EUV-sensitive organo-metal oxide may be deposited on a semiconductor substrate using a dry or wet deposition technique. The metal-containing resist film on the semiconductor substrate may be developed using the organic vapor, or residue of metal-containing resist material formed on surfaces of a process chamber may be removed using the organic vapor.
    Type: Application
    Filed: April 24, 2025
    Publication date: August 7, 2025
    Inventors: Dries DICTUS, Chenghao WU, Eric Calvin HANSEN, Timothy William WEIDMAN
  • Patent number: 12346035
    Abstract: Dry development or dry removal of metal-containing extreme ultraviolet radiation (EUV) photoresist is performed in atmospheric conditions or performed in process tools without vacuum equipment. Dry removal of the metal-containing EUV photoresist may be performed under atmospheric pressure or over-atmospheric pressure. Dry removal of the metal-containing EUV photoresist may be performed with exposure to an air environment or with non-oxidizing gases. A process chamber or module may be modified or integrated to perform dry removal of the metal-containing EUV photoresist with baking, wafer cleaning, wafer treatment, or other photoresist processing function. In some embodiments, the process chamber for dry removal of the metal-containing EUV photoresist includes a heating assembly for localized heating of a semiconductor substrate and a movable discharge nozzle for localized gas delivery above the semiconductor substrate.
    Type: Grant
    Filed: October 5, 2023
    Date of Patent: July 1, 2025
    Assignee: Lam Research Corporation
    Inventors: Dries Dictus, Timothy William Weidman
  • Patent number: 11984354
    Abstract: A method for forming a self-forming barrier in a feature of a substrate is provided, including the following operations: depositing a metallic liner in the feature of the substrate, the metallic liner being deposited over a dielectric of the substrate; depositing a zinc-containing precursor over the metallic liner; performing a thermal soak of the substrate; repeating the depositing of the zinc-containing precursor and the thermal soak of the substrate for a predefined number of cycles; wherein the method forms a zinc-containing barrier layer at an interface between the metallic liner and the dielectric.
    Type: Grant
    Filed: June 28, 2019
    Date of Patent: May 14, 2024
    Assignee: Lam Research Corporation
    Inventors: Aniruddha Joi, Dries Dictus, Yezdi Dordi
  • Publication number: 20240036483
    Abstract: Dry development or dry removal of metal-containing extreme ultraviolet radiation (EUV) photoresist is performed in atmospheric conditions or performed in process tools without vacuum equipment. Dry removal of the metal-containing EUV photoresist may be performed under atmospheric pressure or over-atmospheric pressure. Dry removal of the metal-containing EUV photoresist may be performed with exposure to an air environment or with non-oxidizing gases. A process chamber or module may be modified or integrated to perform dry removal of the metal-containing EUV photoresist with baking, wafer cleaning, wafer treatment, or other photoresist processing function. In some embodiments, the process chamber for dry removal of the metal-containing EUV photoresist includes a heating assembly for localized heating of a semiconductor substrate and a movable discharge nozzle for localized gas delivery above the semiconductor substrate.
    Type: Application
    Filed: October 5, 2023
    Publication date: February 1, 2024
    Inventors: Dries DICTUS, Timothy William WEIDMAN
  • Publication number: 20230416606
    Abstract: Development of resists are useful, for example, to form a patterning mask in the context of high-resolution patterning. Development can be accomplished using an organic vapor such as a carboxylic acid. In some implementations, the organic vapor is trifluoroacetic acid. In some implementations, the organic vapor is hexafluoro-acetylacetone. A metal-containing resist film such as an EUV-sensitive organo-metal oxide may be deposited on a semiconductor substrate using a dry or wet deposition technique. The metal-containing resist film on the semiconductor substrate may be developed using the organic vapor, or residue of metal-containing resist material formed on surfaces of a process chamber may be removed using the organic vapor.
    Type: Application
    Filed: December 3, 2021
    Publication date: December 28, 2023
    Inventors: Dries DICTUS, Chenghao WU, Eric Calvin HANSEN, Timothy William WEIDMAN
  • Patent number: 11854792
    Abstract: A method for treating high aspect ratio (HAR) structures arranged on a surface of a substrate includes a) spin rinsing the surface of the substrate using a first rinsing liquid; b) spinning off the first rinsing liquid from the surface of the substrate; and c) directing a gas mixture containing hydrogen fluoride onto the surface of the substrate after the first rinsing liquid is dispensed.
    Type: Grant
    Filed: October 11, 2018
    Date of Patent: December 26, 2023
    Assignee: LAM RESEARCH AG
    Inventors: Dries Dictus, Ta-Yu Lo
  • Publication number: 20230266670
    Abstract: The present disclosure relates to use of a metal chelator to treat an exposed photoresist film. In particular embodiments, the metal chelator is employed to remove an interfacial area that is disposed between exposed and unexposed areas or disposed within an exposed area, thereby enhancing patterning quality.
    Type: Application
    Filed: July 16, 2021
    Publication date: August 24, 2023
    Inventors: Eric Calvin Hansen, Timothy William Weidman, Chenghao Wu, Kevin Li Gu, Dries Dictus
  • Publication number: 20230107357
    Abstract: Dry development or dry removal of metal-containing extreme ultraviolet radiation (EUV) photoresist is performed in atmospheric conditions or performed in process tools without vacuum equipment. Dry removal of the metal-containing EUV photoresist may be performed under atmospheric pressure or over-atmospheric pressure. Dry removal of the metal-containing EUV photoresist may be performed with exposure to an air environment or with non-oxidizing gases. A process chamber or module may be modified or integrated to perform dry removal of the metal-containing EUV photoresist with baking, wafer cleaning, wafer treatment, or other photoresist processing function. In some embodiments, the process chamber for dry removal of the metal-containing EUV photoresist includes a heating assembly for localized heating of a semiconductor substrate and a movable discharge nozzle for localized gas delivery above the semiconductor substrate.
    Type: Application
    Filed: November 9, 2021
    Publication date: April 6, 2023
    Inventors: Dries DICTUS, Timothy William WEIDMAN
  • Publication number: 20220415819
    Abstract: A metal interconnect structure is doped with zinc, indium, or gallium using top-down doping processes to improve diffusion barrier properties with minimal impact on line resistance. Dopant is introduced prior to metallization or after metallization. Dopant may be introduced by chemical vapor deposition on a liner layer at an elevated temperature prior to metallization, by chemical vapor deposition on a metal feature at an elevated temperature after metallization, or by electroless deposition on a copper feature after metallization. Application of elevated temperatures causes the metal interconnect structure to be doped and form a self-formed barrier layer or strengthen an existing diffusion barrier layer.
    Type: Application
    Filed: November 20, 2020
    Publication date: December 29, 2022
    Inventors: Aniruddha JOI, Dries DICTUS, Yezdi DORDI
  • Publication number: 20220299877
    Abstract: The present disclosure relates to post-application treatment of a radiation-sensitive film to provide a hardened resist film. In some instances, such films can be used to form a pattern by a positive tone wet development process.
    Type: Application
    Filed: October 8, 2020
    Publication date: September 22, 2022
    Applicant: Lam Research Corporation
    Inventors: Timothy William Weidman, Katie Lynn Nardi, Dries Dictus, Benjamin Kam, Chenghao Wu, Eric Calvin Hansen, Nizan Kenane, Kevin Li Gu
  • Patent number: 11424158
    Abstract: A method comprises depositing a barrier layer on a dielectric layer to prevent oxidation of a metal layer to be deposited by electroplating due to an oxide present in the dielectric layer and depositing a doped liner layer on the barrier layer to bond with the metal layer to be deposited on the liner layer by the electroplating. The dopant forms a protective passivation layer on a surface of the liner layer and dissolves during the electroplating so that the metal layer deposited on the liner layer by the electroplating bonds with the liner layer. The dopant reacts with the dielectric layer and forms a layer of a compound between the barrier layer and the dielectric layer. The compound layer prevents oxidation of the barrier layer and the liner layer due to the oxide present in the dielectric layer and adheres the barrier layer to the dielectric layer.
    Type: Grant
    Filed: August 4, 2020
    Date of Patent: August 23, 2022
    Assignee: LAM RESEARCH CORPORATION
    Inventors: Yezdi N. Dordi, Aniruddha Joi, Steven James Madsen, Dries Dictus
  • Publication number: 20210193456
    Abstract: A method for treating high aspect ratio (HAR) structures arranged on a surface of a substrate includes a) spin rinsing the surface of the substrate using a first rinsing liquid; b) spinning off the first rinsing liquid from the surface of the substrate; and c) directing a gas mixture containing hydrogen fluoride onto the surface of the substrate after the first rinsing liquid is dispensed.
    Type: Application
    Filed: October 11, 2018
    Publication date: June 24, 2021
    Inventors: Dries DICTUS, Ta-Yu LO
  • Publication number: 20210166971
    Abstract: A method for forming a self-forming barrier in a feature of a substrate is provided, including the following operations: depositing a metallic liner in the feature of the substrate, the metallic liner being deposited over a dielectric of the substrate; depositing a zinc-containing precursor over the metallic liner; performing a thermal soak of the substrate; repeating the depositing of the zinc-containing precursor and the thermal soak of the substrate for a predefined number of cycles; wherein the method forms a zinc-containing barrier layer at an interface between the metallic liner and the dielectric.
    Type: Application
    Filed: June 28, 2019
    Publication date: June 3, 2021
    Inventors: Aniruddha Joi, Dries Dictus, Yezdi Dordi
  • Publication number: 20200365453
    Abstract: A method comprises depositing a barrier layer on a dielectric layer to prevent oxidation of a metal layer to be deposited by electroplating due to an oxide present in the dielectric layer and depositing a doped liner layer on the barrier layer to bond with the metal layer to be deposited on the liner layer by the electroplating. The dopant forms a protective passivation layer on a surface of the liner layer and dissolves during the electroplating so that the metal layer deposited on the liner layer by the electroplating bonds with the liner layer. The dopant reacts with the dielectric layer and forms a layer of a compound between the barrier layer and the dielectric layer. The compound layer prevents oxidation of the barrier layer and the liner layer due to the oxide present in the dielectric layer and adheres the barrier layer to the dielectric layer.
    Type: Application
    Filed: August 4, 2020
    Publication date: November 19, 2020
    Inventors: Yezdi N. Dordi, Aniruddha Joi, Steven James Madsen, Dries Dictus
  • Patent number: 10815573
    Abstract: A liquid passivation mixture for passivating an outer layer of a substrate comprises a first material selected from group consisting of sulfur or selenium and a base selected from a group consisting of quaternary ammonium compound, sodium hydroxide (NaOH), potassium hydroxide (KOH), and amine.
    Type: Grant
    Filed: May 30, 2017
    Date of Patent: October 27, 2020
    Assignee: LAM RESEARCH AG
    Inventor: Dries Dictus