Patents by Inventor John Plombon

John Plombon 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: 12598977
    Abstract: Metallization interconnect structures, integrated circuit devices, and methods related to high aspect ratio interconnects are discussed. A self assembled monolayer is selectively formed on interlayer dielectric sidewalls of an opening that exposes an underlying metallization structure. A first metal is formed on the underlying metallization structure and within only a bottom portion of the self assembled monolayer. The exposed portion of the self assembled monolayer is removed and a second metal is formed over the first metal.
    Type: Grant
    Filed: December 21, 2021
    Date of Patent: April 7, 2026
    Assignee: Intel Corporation
    Inventors: Jiun-Ruey Chen, Christopher Jezewski, John Plombon, Miriam Reshotko, Mauro Kobrinsky, Scott B. Clendenning
  • Publication number: 20230197601
    Abstract: Metallization interconnect structures, integrated circuit devices, and methods related to high aspect ratio interconnects are discussed. A self assembled monolayer is selectively formed on interlayer dielectric sidewalls of an opening that exposes an underlying metallization structure. A first metal is formed on the underlying metallization structure and within only a bottom portion of the self assembled monolayer. The exposed portion of the self assembled monolayer is removed and a second metal is formed over the first metal.
    Type: Application
    Filed: December 21, 2021
    Publication date: June 22, 2023
    Applicant: Intel Corporation
    Inventors: Jiun-Ruey Chen, Christopher Jezewski, John Plombon, Miriam Reshotko, Mauro Kobrinsky, Scott B. Clendenning
  • Publication number: 20120070981
    Abstract: The present disclosure relates to the field of microelectronic device fabrication and, more particularly, to the formation of copper-containing seed layers for the fabrication of interconnects in integrated circuits. The copper-containing seed layers may be formed in an atomic layer deposition process with a copper pre-cursor and organometallic co-reagent.
    Type: Application
    Filed: September 17, 2010
    Publication date: March 22, 2012
    Inventors: Scott B. Clendenning, James M. Blackwell, Patricio Romero, John Plombon
  • Patent number: 7851360
    Abstract: Organometallic precursors and methods for deposition on a substrate in seed/barrier applications are herein disclosed. In some embodiments, the organometallic precursor is a ruthenium-containing, tantalum-containing precursor or combination thereof and may be deposited by atomic layer deposition, chemical vapor deposition and/or physical vapor deposition.
    Type: Grant
    Filed: February 14, 2007
    Date of Patent: December 14, 2010
    Assignee: Intel Corporation
    Inventors: Juan Dominguez, Adrien Lavoie, John Plombon, Joseph Han, Harsono Simka, David Thompson, John Peck
  • Patent number: 7524765
    Abstract: A method comprising introducing an organometallic precursor according to a first set of conditions in the presence of a substrate; introducing the organometallic precursor according to a different second set of conditions in the presence of the substrate; and forming a layer comprising a moiety of the organometallic precursor on the substrate according to an atomic layer deposition process. A system comprising a computing device comprising a microprocessor, the microprocessor coupled to a printed circuit board, the microprocessor comprising a substrate having a plurality of circuit devices with electrical connections made to the plurality of circuit devices through interconnect structures formed in a plurality of dielectric layers formed on the substrate and each of the plurality of interconnect structures separated from the plurality of dielectric layers by a barrier layer formed according to an atomic layer deposition process.
    Type: Grant
    Filed: November 2, 2005
    Date of Patent: April 28, 2009
    Assignee: Intel Corporation
    Inventors: Juan E. Dominquez, Adrien R. Lavoie, Harsono S. Simka, John Plombon, David M. Thompson, John D. Peck
  • Publication number: 20080241575
    Abstract: Methods and associated structures of forming a microelectronic device are described. Those methods may include heating a substrate comprising a patterned metallic region to about 145 C or below in a reaction space, introducing an aluminum co-reactant into the reaction space, wherein an aluminum material is formed on the patterned metallic region, but not on non-metallic regions.
    Type: Application
    Filed: March 28, 2007
    Publication date: October 2, 2008
    Inventors: Adrein R. Lavoie, Valery Dubin, John Plombon, Kari Harkonen, Arnel M. Fajardo
  • Publication number: 20080194105
    Abstract: Organometallic precursors and methods for deposition on a substrate in seed/barrier applications are herein disclosed. In some embodiments, the organometallic precursor is a ruthenium-containing, tantalum-containing precursor or combination thereof and may be deposited by atomic layer deposition, chemical vapor deposition and/or physical vapor deposition.
    Type: Application
    Filed: February 14, 2007
    Publication date: August 14, 2008
    Inventors: Juan Dominguez, Adrien Lavoie, John Plombon, Joseph Han, Harsono Simka, David Thompson, John Peck
  • Publication number: 20070264816
    Abstract: A method for forming a metal interconnect comprises providing a dielectric layer on a substrate within a reaction chamber where the dielectric layer includes a trench, conformally depositing a barrier layer on the dielectric layer within the trench, conformally depositing a Cu—Al alloy layer on the barrier layer within the trench, depositing a copper layer to fill the trench, and planarizing the copper layer to form the metal interconnect. The Cu—Al alloy layer may be formed by sequential ALD or CVD deposition of an aluminum layer and a copper layer followed by an annealing process. Alternately, the Cu—Al alloy layer may be formed in-situ by co-pulsing the aluminum and copper precursors.
    Type: Application
    Filed: May 12, 2006
    Publication date: November 15, 2007
    Inventors: Adrien Lavoie, Juan Dominguez, John Plombon, Joseph Han, Harsono Simka
  • Publication number: 20070202678
    Abstract: A method for carrying out a damascene process to form an interconnect comprises providing a semiconductor substrate having a trench etched into a dielectric layer, wherein the trench includes a barrier layer and an adhesion layer, depositing a copper seed layer onto the adhesion layer using an ALD process, depositing an iodine catalyst layer onto the copper seed layer using an ALD process, and depositing a copper layer onto the copper seed layer using an ALD process. The iodine catalyst layer causes the copper layer to fill the trench by way of a bottom-up fill mechanism. The trench fill is performed using a single ALD process, which minimizes the creation of voids and seams in the final copper interconnect.
    Type: Application
    Filed: February 28, 2006
    Publication date: August 30, 2007
    Inventors: John Plombon, Adrien Lavoie, Juan Dominguez, Joseph Han, Harsono Simka
  • Publication number: 20070194287
    Abstract: Incompatible materials, such as copper and nitrided barrier layers, may be adhered more effectively to one another. In one embodiment, a precursor of copper is deposited on the nitrided barrier. The precursor is then converted, through the application of energy, to copper which could not have been as effectively adhered to the barrier in the first place.
    Type: Application
    Filed: February 22, 2006
    Publication date: August 23, 2007
    Inventors: Juane Dominguez, Adrien Lavoie, John Plombon, Joseph Han, Harsono Simka
  • Publication number: 20070099420
    Abstract: A method comprising introducing an organometallic precursor according to a first set of conditions in the presence of a substrate; introducing the organometallic precursor according to a different second set of conditions in the presence of the substrate; and forming a layer comprising a moiety of the organometallic precursor on the substrate according to an atomic layer deposition process. A system comprising a computing device comprising a microprocessor, the microprocessor coupled to a printed circuit board, the microprocessor comprising a substrate having a plurality of circuit devices with electrical connections made to the plurality of circuit devices through interconnect structures formed in a plurality of dielectric layers formed on the substrate and each of the plurality of interconnect structures separated from the plurality of dielectric layers by a barrier layer formed according to an atomic layer deposition process.
    Type: Application
    Filed: November 2, 2005
    Publication date: May 3, 2007
    Inventors: Juan Dominguez, Adrien Lavoie, Harsono Simka, John Plombon, David Thompson, John Peck