Patents by Inventor Ivo Johannes Raaijmakers
Ivo Johannes Raaijmakers 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: 20240084446Abstract: A reaction chamber component for use in a deposition apparatus for depositing a layer of a first material on a substrate is provided. The component may have a base material being partially coated with a liner of the first material. The component may have a protective layer of a second material different than the first material on top of the liner of the first material to protect the component. This may be useful during a removal process for removing a parasitic coating of the same first material deposited during use of the reaction chamber component.Type: ApplicationFiled: September 12, 2023Publication date: March 14, 2024Inventors: Iordan Iordanov, Christiaan Werkhoven, Loke Yuen Wong, Ivo Johannes Raaijmakers, Osama Khalil
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Publication number: 20240047197Abstract: Methods for selective deposition are provided. Material is selectively deposited on a first surface of a substrate relative to a second surface of a different material composition. An inhibitor, such as a polyimide layer, is selectively formed from vapor phase reactants on the first surface relative to the second surface. A layer of interest is selectively deposited from vapor phase reactants on the second surface relative to the first surface. The first surface can be metallic while the second surface is dielectric. Accordingly, material, such as a dielectric transition metal oxides and nitrides, can be selectively deposited on metallic surfaces relative dielectric surfaces using techniques described herein.Type: ApplicationFiled: October 20, 2023Publication date: February 8, 2024Inventors: Jan Willem Hub Maes, Michael Eugene Givens, Suvi P. Haukka, Vamsi Paruchuri, Ivo Johannes Raaijmakers, Shaoren Deng, Andrea Illiberi, Eva E. Tois, Delphine Longrie, Viljami J. Pore
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Patent number: 11830732Abstract: Methods for selective deposition are provided. Material is selectively deposited on a first surface of a substrate relative to a second surface of a different material composition. An inhibitor, such as a polyimide layer, is selectively formed from vapor phase reactants on the first surface relative to the second surface. A layer of interest is selectively deposited from vapor phase reactants on the second surface relative to the first surface. The first surface can be metallic while the second surface is dielectric. Accordingly, material, such as a dielectric transition metal oxides and nitrides, can be selectively deposited on metallic surfaces relative dielectric surfaces using techniques described herein.Type: GrantFiled: September 9, 2021Date of Patent: November 28, 2023Assignee: ASM IP Holding B.V.Inventors: Jan Willem Hub Maes, Michael Eugene Givens, Suvi P. Haukka, Vamsi Paruchuri, Ivo Johannes Raaijmakers, Shaoren Deng, Andrea Illiberi, Eva E. Tois, Delphine Longrie, Viljami Pore
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Publication number: 20230183856Abstract: Examples of the disclosure relate to a sequential infiltration synthesis apparatus comprising: a reaction chamber constructed and arranged to accommodate at least one substrate; a first precursor flow path to provide the first precursor to the reaction chamber when a first flow controller is activated; a second precursor flow path to provide a second precursor to the reaction chamber when a second flow controller is activated; a removal flow path to allow removal of gas from the reaction chamber; a removal flow controller to create a gas flow in the reaction chamber to the removal flow path when the removal flow controller is activated; and, a sequence controller operably connected to the first, second and removal flow controllers and the sequence controller being programmed to enable infiltration of an infiltrateable material provided on the substrate in the reaction chamber. The apparatus may be provided with a heating system.Type: ApplicationFiled: January 17, 2023Publication date: June 15, 2023Applicant: ASM IP Holding B.V.Inventors: Ivo Johannes Raaijmakers, Jan Willem Maes, Werner Knaepen, Krzysztof Kamil Kachel
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Patent number: 11581186Abstract: The disclosure relates to a sequential infiltration synthesis apparatus comprising: a reaction chamber constructed and arranged to accommodate at least one substrate; a first precursor flow path to provide the first precursor to the reaction chamber when a first flow controller is activated; a second precursor flow path to provide a second precursor to the reaction chamber when a second flow controller is activated; a removal flow path to allow removal of gas from the reaction chamber; a removal flow controller to create a gas flow in the reaction chamber to the removal flow path when the removal flow controller is activated; and, a sequence controller operably connected to the first, second and removal flow controllers and the sequence controller being programmed to enable infiltration of an infiltrateable material provided on the substrate in the reaction chamber. The apparatus may be provided with a heating system.Type: GrantFiled: December 15, 2016Date of Patent: February 14, 2023Assignee: ASM IP Holding B.V.Inventors: Ivo Johannes Raaijmakers, Jan Willem Maes, Werner Knaepen, Krzysztof Kamil Kachel
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Publication number: 20220208542Abstract: Methods for selective deposition are provided. Material is selectively deposited on a first surface of a substrate relative to a second surface of a different material composition. An inhibitor, such as a polyimide layer, is selectively formed from vapor phase reactants on the first surface relative to the second surface. A layer of interest is selectively deposited from vapor phase reactants on the second surface relative to the first surface. The first surface can be metallic while the second surface is dielectric. Accordingly, material, such as a dielectric transition metal oxides and nitrides, can be selectively deposited on metallic surfaces relative dielectric surfaces using techniques described herein.Type: ApplicationFiled: September 9, 2021Publication date: June 30, 2022Inventors: Jan Willem Hub Maes, Michael Eugene Givens, Suvi P. Haukka, Vamsi Paruchuri, Ivo Johannes Raaijmakers, Shaoren Deng, Andrea Illiberi, Eva E. Tois, Delphine Longrie
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Publication number: 20210358745Abstract: Methods for selective deposition are provided. Material is selectively deposited on a first surface of a substrate relative to a second surface of a different material composition. An inhibitor, such as a polyimide layer, is selectively formed from vapor phase reactants on the first surface relative to the second surface. A layer of interest is selectively deposited from vapor phase reactants on the second surface relative to the first surface. The first surface can be metallic while the second surface is dielectric. Accordingly, material, such as a dielectric transition metal oxides and nitrides, can be selectively deposited on metallic surfaces relative dielectric surfaces using techniques described herein.Type: ApplicationFiled: July 30, 2021Publication date: November 18, 2021Inventors: Jan Willem Maes, Michael Eugene Givens, Suvi P. Haukka, Vamsi Paruchuri, Ivo Johannes Raaijmakers, Shaoren Deng, Andrea Illiberi, Eva E. Tois, Delphine Longrie, Charles Dezelah, Marko Tuominen
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Publication number: 20210358739Abstract: Methods for selective deposition, and structures thereof, are provided. Material is selectively deposited on a first surface of a substrate relative to a second surface of a different material composition. A passivation layer is selectively formed from vapor phase reactants on the first surface while leaving the second surface without the passivation layer. A layer of interest is selectively deposited from vapor phase reactants on the second surface relative to the passivation layer. The first surface can be metallic while the second surface is dielectric, or the second surface is dielectric while the second surface is metallic. Accordingly, material, such as a dielectric, can be selectively deposited on either metallic or dielectric surfaces relative to the other type of surface using techniques described herein. Techniques and resultant structures are also disclosed for control of positioning and shape of layer edges relative to boundaries between underlying disparate materials.Type: ApplicationFiled: July 29, 2021Publication date: November 18, 2021Inventors: Eva E. Tois, Suvi P. Haukka, Raija H. Matero, Elina Färm, Delphine Longrie, Hidemi Suemori, Jan Willem Maes, Marko Tuominen, Shaoren Deng, Ivo Johannes Raaijmakers, Andrea Illiberi
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Patent number: 11145506Abstract: Methods for selective deposition are provided. Material is selectively deposited on a first surface of a substrate relative to a second surface of a different material composition. An inhibitor, such as a polyimide layer, is selectively formed from vapor phase reactants on the first surface relative to the second surface. A layer of interest is selectively deposited from vapor phase reactants on the second surface relative to the first surface. The first surface can be metallic while the second surface is dielectric. Accordingly, material, such as a dielectric transition metal oxides and nitrides, can be selectively deposited on metallic surfaces relative dielectric surfaces using techniques described herein.Type: GrantFiled: September 30, 2019Date of Patent: October 12, 2021Assignee: ASM IP HOLDING B.V.Inventors: Jan Willem Hub Maes, Michael Eugene Givens, Suvi P. Haukka, VamsI Paruchuri, Ivo Johannes Raaijmakers, Shaoren Deng, Andrea Illiberi, Eva E. Tois, Delphine Longrie
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Patent number: 11094535Abstract: Methods for selective deposition, and structures thereof, are provided. Material is selectively deposited on a first surface of a substrate relative to a second surface of a different material composition. A passivation layer is selectively formed from vapor phase reactants on the first surface while leaving the second surface without the passivation layer. A layer of interest is selectively deposited from vapor phase reactants on the second surface relative to the passivation layer. The first surface can be metallic while the second surface is dielectric, or the second surface is dielectric while the second surface is metallic. Accordingly, material, such as a dielectric, can be selectively deposited on either metallic or dielectric surfaces relative to the other type of surface using techniques described herein. Techniques and resultant structures are also disclosed for control of positioning and shape of layer edges relative to boundaries between underlying disparate materials.Type: GrantFiled: February 9, 2018Date of Patent: August 17, 2021Assignee: ASM IP HOLDING B.V.Inventors: Eva E. Tois, Suvi P. Haukka, Raija H. Matero, Elina Färm, Delphine Longrie, Hidemi Suemori, Jan Willem Maes, Marko Tuominen, Shaoren Deng, Ivo Johannes Raaijmakers, Andrea Illiberi
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Publication number: 20210013037Abstract: Methods of forming structures including a photoresist underlayer and structures including the photoresist underlayer are disclosed. Exemplary methods include forming the photoresist underlayer using one or more of plasma-enhanced cyclic (e.g., atomic layer) deposition and plasma-enhanced chemical vapor deposition. Surface properties of the photoresist underlayer can be manipulated using a treatment process.Type: ApplicationFiled: July 7, 2020Publication date: January 14, 2021Inventors: Yiting Sun, David de Roest, Daniele Piumi, Ivo Johannes Raaijmakers, BokHeon Kim, Timothee Blanquart, Yoann Tomczak
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Publication number: 20200105515Abstract: Methods for selective deposition are provided. Material is selectively deposited on a first surface of a substrate relative to a second surface of a different material composition. An inhibitor, such as a polyimide layer, is selectively formed from vapor phase reactants on the first surface relative to the second surface. A layer of interest is selectively deposited from vapor phase reactants on the second surface relative to the first surface. The first surface can be metallic while the second surface is dielectric. Accordingly, material, such as a dielectric transition metal oxides and nitrides, can be selectively deposited on metallic surfaces relative dielectric surfaces using techniques described herein.Type: ApplicationFiled: September 30, 2019Publication date: April 2, 2020Applicant: ASM IP Holding B.V.Inventors: Jan Willem Hub Maes, Michael Eugene Givens, Suvi P. Haukka, Vamsi Paruchuri, Ivo Johannes Raaijmakers, Shaoren Deng, Andrea Illiberi, Eva E. Tois, Delphine Longrie
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Publication number: 20180233350Abstract: Methods for selective deposition, and structures thereof, are provided. Material is selectively deposited on a first surface of a substrate relative to a second surface of a different material composition. A passivation layer is selectively formed from vapor phase reactants on the first surface while leaving the second surface without the passivation layer. A layer of interest is selectively deposited from vapor phase reactants on the second surface relative to the passivation layer. The first surface can be metallic while the second surface is dielectric, or the second surface is dielectric while the second surface is metallic. Accordingly, material, such as a dielectric, can be selectively deposited on either metallic or dielectric surfaces relative to the other type of surface using techniques described herein. Techniques and resultant structures are also disclosed for control of positioning and shape of layer edges relative to boundaries between underlying disparate materials.Type: ApplicationFiled: February 9, 2018Publication date: August 16, 2018Inventors: Eva E. Tois, Suvi P. Haukka, Raija H. Matero, Elina Färm, Delphine Longrie, Hidemi Suemori, Jan Willem Maes, Marko Tuominen, Shaoren Deng, Ivo Johannes Raaijmakers, Andrea Illiberi
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Publication number: 20180174826Abstract: The disclosure relates to a sequential infiltration synthesis apparatus comprising: a reaction chamber constructed and arranged to accommodate at least one substrate; a first precursor flow path to provide the first precursor to the reaction chamber when a first flow controller is activated; a second precursor flow path to provide a second precursor to the reaction chamber when a second flow controller is activated; a removal flow path to allow removal of gas from the reaction chamber; a removal flow controller to create a gas flow in the reaction chamber to the removal flow path when the removal flow controller is activated; and, a sequence controller operably connected to the first, second and removal flow controllers and the sequence controller being programmed to enable infiltration of an infiltrateable material provided on the substrate in the reaction chamber. The apparatus may be provided with a heating system.Type: ApplicationFiled: December 15, 2016Publication date: June 21, 2018Inventors: Ivo Johannes Raaijmakers, Jan Willem Maes, Werner Knaepen, Krzysztof Kamil Kachel