Patents by Inventor Pekka T. Soininen
Pekka T. Soininen 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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Patent number: 11041243Abstract: The invention relates to coating precursor nozzle (15) for subjecting a surface of a substrate (5) to a coating precursor. The nozzle (15) having a nozzle output face (10a), first and second nozzle side edges (31, 32), and first and second nozzle end edges (33, 34). The coating precursor nozzle (15) comprising a precursor supply channel (16), a first discharge channel (17a), a first cross purge gas channel (18a), a second cross purge gas channel (18b), a first edge purge gas channel (19a) and at least one first auxiliary purge gas channel (20). The invention further relates to a nozzle head (1).Type: GrantFiled: December 15, 2016Date of Patent: June 22, 2021Assignee: BENEQ OYInventor: Pekka T. Soininen
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Publication number: 20180347044Abstract: The invention relates to coating precursor nozzle (15) for subjecting a surface of a substrate (5) to a coating precursor. The nozzle (15) having a nozzle output face (10a), first and second nozzle side edges (31, 32), and first and second nozzle end edges (33, 34). The coating precursor nozzle (15) comprising a precursor supply channel (16), a first discharge channel (17a), a first cross purge gas channel (18a), a second cross purge gas channel (18b), a first edge purge gas channel (19a) and at least one first auxiliary purge gas channel (20). The invention further relates to a nozzle head (1).Type: ApplicationFiled: December 15, 2016Publication date: December 6, 2018Inventor: Pekka T. SOININEN
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Patent number: 7971861Abstract: Containers for providing vapor phase reactant from liquid sources include bubbler designs and designs in which carrier gas flows over the liquid surface. Among the bubbler arrangements, a bypass conductance is provided to release excess pressure from the gas volume inside the container, or an enlarged bubbler tube is provided with a volume sufficient to accommodate all possible liquid backflow without having the liquid exit the container. Among the overflow designs, flow dividers provide a tortuous path for the gas to increase the time exposure of carrier gas packets to the evaporating liquid surface. The flow dividers can be microporous to encourage capillary action, thereby increasing the evaporating surface. The tortuous gas flow path can be separated from the liquid phase by a breathable semi-porous membrane that permits vapor phase reactant to pass through but prohibits liquid from passing in the other direction.Type: GrantFiled: January 29, 2009Date of Patent: July 5, 2011Assignee: ASM International N.V.Inventor: Pekka T. Soininen
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Patent number: 7833352Abstract: The invention relates to an apparatus for growing thin-films onto a substrate by exposing the substrate to alternate surface reactions of vapor-phase reactants for forming a thin-film onto the, substrate by means of said surface reactions. The apparatus comprises a vacuum vessel (1), a reaction chamber (2) with a reaction space into which the substrate can be transferred and which has infeed channels (6) for feeding therein the reactants used in said thin-film growth process, as well as outlet channels (4) for discharging gaseous reaction products and excess reactants'. According to the invention, said reaction chamber comprises a base part (9, 10) mounted stationary in respect to the interior of said vacuum vessel (1) and a movable part (18) adapted to be sealably closable against said'base part of said reaction chamber. The invention makes it possible to improve the cleanliness of the substrate load chamber and to reduce the degree of substrate contamination.Type: GrantFiled: March 6, 2003Date of Patent: November 16, 2010Assignee: ASM International N.V.Inventors: Niklas Bondestam, Janne Kesälä, Leif Keto, Pekka T. Soininen
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Publication number: 20090133632Abstract: Containers for providing vapor phase reactant from liquid sources include bubbler designs and designs in which carrier gas flows over the liquid surface. Among the bubbler arrangements, a bypass conductance is provided to release excess pressure from the gas volume inside the container, or an enlarged bubbler tube is provided with a volume sufficient to accommodate all possible liquid backflow without having the liquid exit the container. Among the overflow designs, flow dividers provide a tortuous path for the gas to increase the time exposure of carrier gas packets to the evaporating liquid surface. The flow dividers can be microporous to encourage capillary action, thereby increasing the evaporating surface. The tortuous gas flow path can be separated from the liquid phase by a breathable semi-porous membrane that permits vapor phase reactant to pass through but prohibits liquid from passing in the other direction.Type: ApplicationFiled: January 29, 2009Publication date: May 28, 2009Applicant: ASM INTERNATIONAL N.V.Inventor: Pekka T. Soininen
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Patent number: 7497420Abstract: Containers for providing vapor phase reactant from liquid sources include bubbler designs and designs in which carrier gas flows over the liquid surface. Among the bubbler arrangements, a bypass conductance is provided to release excess pressure from the gas volume inside the container, or an enlarged bubbler tube is provided with a volume sufficient to accommodate all possible liquid backflow without having the liquid exit the container. Among the overflow designs, flow dividers provide a tortuous path for the gas to increase the time exposure of carrier gas packets to the evaporating liquid surface. The flow dividers can be microporous to encourage capillary action, thereby increasing the evaporating surface. The tortuous gas flow path can be separated from the liquid phase by a breathable semi-porous membrane that permits vapor phase reactant to pass through but prohibits liquid from passing in the other direction.Type: GrantFiled: December 28, 2006Date of Patent: March 3, 2009Assignee: ASM International, N.V.Inventor: Pekka T. Soininen
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Patent number: 7276774Abstract: A dielectric film is formed by atomic layer deposition to conformally fill a narrow, deep trench for device isolation. The method of the illustrated embodiments includes alternately pulsing vapor-phase reactants in a string of cycles, where each cycle deposits no more than about a monolayer of material, capable of completely filling high aspect ratio trenches. Additionally, the trench-fill material composition can be tailored by processes described herein, particularly to match the coefficient of thermal expansion (CTE) to that of the surrounding substrate within which the trench is formed. Mixed phases of mullite and silica have been found to meet the goals of device isolation and matched CTE. The described process includes mixing atomic layer deposition cycles of aluminum oxide and silicon oxide in ratios selected to achieve the desired composition of the isolation material, namely on the order of 30% alumina and 70% silicon oxide by weight.Type: GrantFiled: June 14, 2004Date of Patent: October 2, 2007Assignee: ASM International N.V.Inventors: Ivo Raaijmakers, Pekka T. Soininen, Ernst H. A. Granneman
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Patent number: 7156380Abstract: Containers for providing vapor phase reactant from liquid sources include bubbler designs and designs in which carrier gas flows over the liquid surface. Among the bubbler arrangements, a bypass conductance is provided to release excess pressure from the gas volume inside the container, or an enlarged bubbler tube is provided with a volume sufficient to accommodate all possible liquid backflow without having the liquid exit the container. Among the overflow designs, flow dividers provide a tortuous path for the gas to increase the time exposure of carrier gas packets to the evaporating liquid surface. The flow dividers can be microporous to encourage capillary action, thereby increasing the evaporating surface. The tortuous gas flow path can be separated from the liquid phase by a breathable semi-porous membrane that permits vapor phase reactant to pass through but prohibits liquid from passing in the other direction.Type: GrantFiled: September 29, 2003Date of Patent: January 2, 2007Assignee: ASM International, N.V.Inventor: Pekka T. Soininen
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Patent number: 7037372Abstract: The present invention relates to the production of thin films. In particular, the invention concerns a method of growing a thin film onto a substrate, in which method the substrate is placed in a reaction chamber and is subjected to surface reactions of a plurality of vapor-phase reactants according to the ALD method. The present invention is based on replacing the mechanical valves conventionally used for regulating the pulsing of the reactants, which valves tend to wear and intrude metallic particles into the process flow, with an improved precursor dosing system. The invention is characterized by choking the reactant flow between the vapour-phase pulses while still allowing a minimum flow of said reactant, and redirecting the reactant at these times to an other destination than the reaction chamber. The redirection is performed with an inactive gas, which is also used for ventilating the reaction chamber between the vapour-phase pulses.Type: GrantFiled: October 28, 2004Date of Patent: May 2, 2006Assignee: ASM International N.V.Inventors: Sven Lindfors, Pekka T. Soininen
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Patent number: 7018478Abstract: A method of growing a thin film onto a substrate placed in a reaction chamber according to the ALD method by subjecting the substrate to alternate and successive surface reactions. The method includes providing a first reactant source and providing an inactive gas source. A first reactant is fed from the first reactant source in the form of repeated alternating pulses to a reaction chamber via a first conduit. The first reactant is allowed to react with the surface of the substrate in the reaction chamber. Inactive gas is fed from the inactive gas source into the first conduit via a second conduit that is connected to the first conduit at a first connection point so as to create a gas phase barrier between the repeated alternating pulses of the first reactant entering the reaction chamber. The inactive gas is withdrawn from said first conduit via a third conduit connected to the first conduit at a second connection point.Type: GrantFiled: July 16, 2004Date of Patent: March 28, 2006Assignee: ASM International N.V.Inventors: Sven Lindfors, Pekka T. Soininen
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Patent number: 6881263Abstract: The present invention relates to the production of thin films. In particular, the invention concerns a method of growing a thin film onto a substrate, in which method the substrate is placed in a reaction chamber and is subjected to surface reactions of a plurality of vapor-phase reactants according to the ALD method. The present invention is based on replacing the mechanical valves conventionally used for regulating the pulsing of the reactants, which valves tend to wear and intrude metallic particles into the process flow, with an improved precursor dosing system. The invention is characterized by choking the reactant flow between the vapour-phase pulses while still allowing a minimum flow of said reactant, and redirecting the reactant at these times to an other destination than the reaction chamber. The redirection is performed with an inactive gas, which is also used for ventilating the reaction chamber between the vapour-phase pulses.Type: GrantFiled: July 20, 2001Date of Patent: April 19, 2005Assignee: ASM Microchemistry OyInventors: Sven Lindfors, Pekka T. Soininen
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Patent number: 6861334Abstract: A dielectric film is formed by atomic layer deposition to conformally fill a narrow, deep trench for device isolation. The method of the illustrated embodiments includes alternately pulsing vapor-phase reactants in a string of cycles, where each cycle deposits no more than about a monolayer of material, capable of completely filling high aspect ratio trenches. Additionally, the trench-fill material composition can be tailored by processes described herein, particularly to match the coefficient of thermal expansion (CTE) to that of the surrounding substrate within which the trench is formed. Mixed phases of mullite and silica have been found to meet the goals of device isolation and matched CTE. The described process includes mixing atomic layer deposition cycles of aluminum oxide and silicon oxide in ratios selected to achieve the desired composition of the isolation material, namely on the order of 30% alumina and 70% silicon oxide by weight.Type: GrantFiled: June 21, 2001Date of Patent: March 1, 2005Assignee: ASM International, N.V.Inventors: Ivo Raaijmakers, Pekka T. Soininen, Ernst H. A. Granneman
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Publication number: 20040261706Abstract: A method of growing a thin film onto a substrate placed in a reaction chamber according to the ALD method by subjecting the substrate to alternate and successive surface reactions. The method includes providing a first reactant source and providing an inactive gas source. A first reactant is fed from the first reactant source in the form of repeated alternating pulses to a reaction chamber via a first conduit. The first reactant is allowed to react with the surface of the substrate in the reaction chamber. Inactive gas is fed from the inactive gas source into the first conduit via a second conduit that is connected to the first conduit at a first connection point so as to create a gas phase barrier between the repeated alternating pulses of the first reactant entering the reaction chamber. The inactive gas is withdrawn from said first conduit via a third conduit connected to the first conduit at a second connection point.Type: ApplicationFiled: July 16, 2004Publication date: December 30, 2004Inventors: Sven Lindfors, Pekka T. Soininen
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Publication number: 20040222490Abstract: A dielectric film is formed by atomic layer deposition to conformally fill a narrow, deep trench for device isolation. The method of the illustrated embodiments includes alternately pulsing vapor-phase reactants in a string of cycles, where each cycle deposits no more than about a monolayer of material, capable of completely filling high aspect ratio trenches. Additionally, the trench-fill material composition can be tailored by processes described herein, particularly to match the coefficient of thermal expansion (CTE) to that of the surrounding substrate within which the trench is formed. Mixed phases of mullite and silica have been found to meet the goals of device isolation and matched CTE. The described process includes mixing atomic layer deposition cycles of aluminum oxide and silicon oxide in ratios selected to achieve the desired composition of the isolation material, namely on the order of 30% alumina and 70% silicon oxide by weight.Type: ApplicationFiled: June 14, 2004Publication date: November 11, 2004Inventors: Ivo Raaijmakers, Pekka T. Soininen, Ernst H.A. Granneman
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Patent number: 6783590Abstract: A method of growing a thin film onto a substrate placed in a reaction chamber according to the ALD method by subjecting the substrate to alternate and successive surface reactions. The method includes providing a first reactant source and providing an inactive gas source. A first reactant is fed from the first reactant source in the form of repeated alternating pulses to a reaction chamber via a first conduit. The first reactant is allowed to react with the surface of the substrate in the reaction chamber. Inactive gas is fed from the inactive gas source into the first conduit via a second conduit that is connected to the first conduit at a first connection point so as to create a gas phase barrier between the repeated alternating pulses of the first reactant entering the reaction chamber. The inactive gas is withdrawn from said first conduit via a third conduit connected to the first conduit at a second connection point.Type: GrantFiled: April 16, 2001Date of Patent: August 31, 2004Assignee: ASM International N.V.Inventors: Sven Lindfors, Pekka T. Soininen
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Patent number: 6759325Abstract: Method and structures are provided for conformal lining of dual damascene structures in integrated circuits, and particularly of openings formed in porous materials. Trenches and contact vias are formed in insulating layers. The pores on the sidewalls of the trenches and vias are blocked, and then the structure is exposed to alternating chemistries to form monolayers of a desired lining material. In exemplary process flows chemical or physical vapor deposition (CVD or PVD) of a sealing layer blocks the pores due to imperfect conformality. An alternating process can also be arranged by selection of pulse separation and/or pulse duration to achieve reduced conformality relative to a self-saturating, self-limiting atomic layer deposition (ALD) process. In still another arrangement, layers with anisotropic pore structures can be sealed by selectively melting upper surfaces. Blocking is followed by a self-limiting, self-saturating atomic layer deposition (ALD) reactions without significantly filling the pores.Type: GrantFiled: November 22, 2002Date of Patent: July 6, 2004Assignee: ASM Microchemistry OyInventors: Ivo Raaijmakers, Pekka T. Soininen, Ernst Granneman, Suvi Haukka, Kai-Erik Elers, Marko Tuominen, Hessel Sprey, Herbert Terhorst, Menso Hendriks
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Patent number: 6699783Abstract: Method and structures are provided for conformal lining of dual damascene structures in integrated circuits, and particularly of openings formed in porous materials. Trenches and contact vias are formed in insulating layers. The pores on the sidewalls of the trenches and vias are blocked, and then the structure is exposed to alternating chemistries to form monolayers of a desired lining material. In exemplary process flows chemical or physical vapor deposition (CVD or PVD) of a sealing layer blocks the pores due to imperfect conformality, and is followed by an atomic layer deposition (ALD), particularly alternately pulsed metal halide and ammonia gases injected into a constant carrier flow. An alternating process can also be arranged to function in CVD-mode within pores of the insulator, since the reactants do not easily purge from the pores between pulses. Self-terminated metal layers are thus reacted with nitrogen.Type: GrantFiled: November 21, 2002Date of Patent: March 2, 2004Assignee: ASM International N.V.Inventors: Ivo Raaijmakers, Pekka T. Soininen, Ernst H. A. Granneman, Suvi P. Haukka
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Patent number: 6689210Abstract: The invention relates to an apparatus for growing thin films onto the surface of a substrate by exposing the substrate to alternately repeated surface reactions of vapor-phase reactants. The apparatus comprises at least one process chamber having a tightly sealable structure, at least one reaction chamber having a structure suitable for adapting into the interior of said process chamber and comprising a reaction space of which at least a portion is movable, infeed means connectable to said reaction space for feeding said reactants into said reaction space, and outfeed means connectable to said reaction space for discharging excess reactants and reaction gases from said reaction space, and at least one substrate adapted into said reaction space.Type: GrantFiled: July 24, 2002Date of Patent: February 10, 2004Assignee: ASM Microchemistry OyInventors: Pekka T. Soininen, Vaino Kilpi
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Patent number: 6686271Abstract: Method and structures are provided for conformal lining of dual damascene structures in integrated circuits, and particularly of openings formed in porous materials. Trenches and contact vias are formed in insulating layers. The pores on the sidewalls of the trenches and vias are blocked, and then the structure is exposed to alternating chemistries to form monolayers of a desired lining material. In exemplary process flows chemical or physical vapor deposition (CVD or PVD) of a sealing layer blocks the pores due to imperfect conformality, and is followed by an atomic layer deposition (ALD), particularly alternately pulsed metal halide and ammonia gases injected into a constant carrier flow. An alternating process can also be arranged to function in CVD-mode within pores of the insulator, since the reactants do not easily purge from the pores between pulses. Self-terminated metal layers are thus reacted with nitrogen.Type: GrantFiled: September 6, 2002Date of Patent: February 3, 2004Assignee: ASM International N.V.Inventors: Ivo Raaijmakers, Pekka T. Soininen, Ernst H. A. Granneman, Suvi P. Haukka
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Publication number: 20030224107Abstract: The present invention relates to the production of thin films. In particular, the invention concerns a method of growing a thin film onto a substrate, in which method the substrate is placed in a reaction chamber and is subjected to surface reactions of a plurality of vapor-phase reactants according to the ALD method. The present invention is based on replacing the mechanical valves conventionally used for regulating the pulsing of the reactants, which valves tend to wear and intrude metallic particles into the process flow, with an improved precursor dosing system. The invention is characterized by choking the reactant flow between the vapour-phase pulses while still allowing a minimum flow of said reactant, and redirecting the reactant at these times to an other destination than the reaction chamber. The redirection is performed with an inactive gas, which is also used for ventilating the reaction chamber between the vapour-phase pulses.Type: ApplicationFiled: April 1, 2003Publication date: December 4, 2003Inventors: Sven Lindfors, Pekka T Soininen