Patents by Inventor Kevin P. Yanders

Kevin P. Yanders 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: 9691629
    Abstract: Compositions useful for the selective removal of silicon nitride materials relative to polysilicon, silicon oxide materials and/or silicide materials from a microelectronic device having same thereon. The removal compositions include fluorosilicic acid, silicic acid, and at least one organic solvent. Typical process temperatures are less than about 100° C. and typical selectivity for nitride versus oxide etch is about 200:1 to about 2000:1. Under typical process conditions, nickel-based silicides as well as titanium and tantalum nitrides are largely unaffected, and polysilicon etch rates are less than about 1 ? min?1.
    Type: Grant
    Filed: October 12, 2015
    Date of Patent: June 27, 2017
    Assignee: Entegris, Inc.
    Inventors: Emanuel I. Cooper, Eileen Sparks, William R. Bowers, Mark A. Biscotto, Kevin P. Yanders, Michael B. Korzenski
  • Publication number: 20160035580
    Abstract: Compositions useful for the selective removal of silicon nitride materials relative to polysilicon, silicon oxide materials and/or silicide materials from a microelectronic device having same thereon. The removal compositions include fluorosilicic acid, silicic acid, and at least one organic solvent. Typical process temperatures are less than about 100° C. and typical selectivity for nitride versus oxide etch is about 200:1 to about 2000:1. Under typical process conditions, nickel-based silicides as well as titanium and tantalum nitrides are largely unaffected, and polysilicon etch rates are less than about 1 ? min?1.
    Type: Application
    Filed: October 12, 2015
    Publication date: February 4, 2016
    Inventors: Emanuel I. COOPER, Eileen SPARKS, William R. BOWERS, Mark A. BISCOTTO, Kevin P. YANDERS, Michael B. KORZENSKI
  • Patent number: 9158203
    Abstract: Compositions useful for the selective removal of silicon nitride materials relative to poly-silicon, silicon oxide materials and/or silicide materials from a microelectronic device having same thereon. The removal compositions include fluorosilicic acid, silicic acid, and at least one organic solvent. Typical process temperatures are less than about 100° C. and typical selectivity for nitride versus oxide etch is about 200:1 to about 2000:1. Under typical process conditions, nickel-based silicides as well as titanium and tantalum nitrides are largely unaffected, and polysilicon etch rates are less than about 1 ? min?1.
    Type: Grant
    Filed: July 15, 2014
    Date of Patent: October 13, 2015
    Assignee: ADVANCED TECHNOLOGY MATERIALS, INC.
    Inventors: Emanuel I. Cooper, Eileen Sparks, William R. Bowers, Mark A. Biscotto, Kevin P. Yanders, Michael B. Korzenski, Prerna Sonthalia, Nicole E. Thomas
  • Publication number: 20140326633
    Abstract: Compositions useful for the selective removal of silicon nitride materials relative to poly-silicon, silicon oxide materials and/or silicide materials from a microelectronic device having same thereon. The removal compositions include fluorosilicic acid, silicic acid, and at least one organic solvent. Typical process temperatures are less than about 100° C. and typical selectivity for nitride versus oxide etch is about 200:1 to about 2000:1. Under typical process conditions, nickel-based silicides as well as titanium and tantalum nitrides are largely unaffected, and polysilicon etch rates are less than about 1 ? min?.
    Type: Application
    Filed: July 15, 2014
    Publication date: November 6, 2014
    Inventors: Emanuel I. COOPER, Eileen Sparks, William R. Bowers, Mark A. Biscotto, Kevin P. Yanders, Michael B. Korzenski, Prema Sonthalia, Nicole E. Thomas
  • Patent number: 8778210
    Abstract: Compositions useful for the selective removal of silicon nitride materials relative to poly-silicon, silicon oxide materials and/or silicide materials from a microelectronic device having same thereon. The removal compositions include fluorosilicic acid, silicic acid, and at least one organic solvent. Typical process temperatures are less than about 100° C. and typical selectivity for nitride versus oxide etch is about 200:1 to about 2000:1. Under typical process conditions, nickel-based silicides as well as titanium and tantalum nitrides are largely unaffected, and polysilicon etch rates are less than about 1 ? min?1.
    Type: Grant
    Filed: December 21, 2007
    Date of Patent: July 15, 2014
    Assignee: Advanced Technology Materials, Inc.
    Inventors: Emanuel I. Cooper, Eileen R. Sparks, William R. Bowers, Mark A. Biscotto, Kevin P. Yanders, Michael B. Korzenski, Prerna Sonthalia, Nicole E. Thomas
  • Patent number: 7922823
    Abstract: Compositions useful in microelectronic device manufacturing for surface preparation and/or cleaning of wafer substrates such as microelectronic device precursor structures. The compositions can be employed for processing of wafers that have, or are intended to be further processed to include, copper metallization, e.g., in operations such as surface preparation, pre-plating cleaning, post-etching cleaning, and post-chemical mechanical polishing cleaning of microelectronic device wafers. The compositions contain (i) alkanolamine, (ii) quaternary ammonium hydroxide and (iii) a complexing agent, and are storage-stable, as well as non-darkening and degradation-resistant in exposure to oxygen.
    Type: Grant
    Filed: January 26, 2006
    Date of Patent: April 12, 2011
    Assignee: Advanced Technology Materials, Inc.
    Inventors: Elizabeth Walker, Shahri Naghshineh, Jeffrey A. Barnes, Ewa Oldak, Darryl W. Peters, Kevin P. Yanders
  • Publication number: 20100176082
    Abstract: Compositions useful for the selective removal of silicon nitride materials relative to poly-silicon, silicon oxide materials and/or silicide materials from a microelectronic device having same thereon. The removal compositions include fluorosilicic acid, silicic acid, and at least one organic solvent. Typical process temperatures are less than about 100° C. and typical selectivity for nitride versus oxide etch is about 200:1 to about 2000:1. Under typical process conditions, nickel-based silicides as well as titanium and tantalum nitrides are largely unaffected, and polysilicon etch rates are less than about 1 ? min?1.
    Type: Application
    Filed: December 21, 2007
    Publication date: July 15, 2010
    Applicant: ADVANCED TECHNOLOGY MATERIALS, INC.
    Inventors: Emanuel I. Cooper, Eileen Sparks, William R. Bowers, Mark A. Biscotto, Kevin P. Yanders, Michael B. Korzenski, Prerna Sonthalia, Nicole E. Thomas
  • Publication number: 20100056409
    Abstract: Compositions useful in microelectronic device manufacturing for surface preparation and/or cleaning of wafer substrates such as microelectronic device precursor structures. The compositions can be employed for processing of wafers that have, or are intended to be further processed to include, copper metallization, e.g., in operations such as surface preparation, pre-plating cleaning, post-etching cleaning, and post-chemical mechanical polishing cleaning of microelectronic device wafers. The compositions contain (i) alkanolamine, (ii) quaternary ammonium hydroxide and (iii) a complexing agent, and are storage-stable, as well as non-darkening and degradation-resistant in exposure to oxygen.
    Type: Application
    Filed: January 26, 2006
    Publication date: March 4, 2010
    Inventors: Elizabeth Walker, Shahri Naghshineh, Jeffrey A. Barnes, Ewa Oldak, Darryl W. Peters, Kevin P. Yanders
  • Publication number: 20080200361
    Abstract: A cleaning solution is provided for cleaning metal-containing microelectronic substrates, particularly for post etch, via formation and post CMP cleaning. The cleaning solution consists of a quaternary ammonium hydroxide, an organic amine, and water. A preferred cleaning solution consists of tetramethylammonium hydroxide, monoethanolamine, and water. The pH of cleaning solution is greater than 10.
    Type: Application
    Filed: April 29, 2008
    Publication date: August 21, 2008
    Inventors: Elizabeth L. Walker, Jeffrey A. Barnes, Shahriar Naghshineh, Kevin P. Yanders
  • Patent number: 7365045
    Abstract: A cleaning solution is provided for cleaning metal-containing microelectronic substrates, particularly for post etch, via formation and post CMP cleaning. The cleaning solution consists of a quaternary ammonium hydroxide, an organic amine, and water. A preferred cleaning solution consists of tetramethylammonium hydroxide, monoethanolamine, and water. The pH of cleaning solution is greater than 10.
    Type: Grant
    Filed: March 30, 2005
    Date of Patent: April 29, 2008
    Assignee: Advanced Tehnology Materials, Inc.
    Inventors: Elizabeth L. Walker, Jeffrey A. Barnes, Shahriar Naghshineh, Kevin P. Yanders
  • Publication number: 20080076688
    Abstract: Alkaline aqueous cleaning compositions and processes for cleaning post-chemical mechanical polishing (CMP) residue, post-etch residue and/or contaminants from a microelectronic device having said residue and contaminants thereon. The alkaline aqueous cleaning compositions include amine, passivating agent, and water. The composition achieves highly efficacious cleaning of the residue and contaminant material from the microelectronic device while simultaneously passivating the metal interconnect material.
    Type: Application
    Filed: September 21, 2006
    Publication date: March 27, 2008
    Inventors: Jeffrey A. Barnes, Elizabeth Walker, Darryl W. Peters, Kyle Bartosh, Ewa R. Oldak, Kevin P. Yanders
  • Patent number: 5336371
    Abstract: In a wafer fabrication process in which a photoresist stripper must be removed from the surface of a semiconductor wafer, the photoresist stripper is rinsed by inserting the wafer in a vessel (23, FIG. 3) filled with water and simultaneously pumping carbon dioxide and water into the vessel to cause the water to overflow the vessel. Preferably, the wafer is contained within the vessel for at least five minutes, and, during the rinsing step, the water completely fills the vessel and overflows at a rate of at least fifty percent of the volume of the vessel each minute. We have found that this method of rinsing photoresist stripper from semiconductor wafers significantly reduces or eliminates the incidence of corrosion pitting on aluminum conductors (12, FIG. 1) of the wafer (11).
    Type: Grant
    Filed: March 18, 1993
    Date of Patent: August 9, 1994
    Assignee: AT&T Bell Laboratories
    Inventors: Bryan C. Chung, Gerald N. DiBello, Charles W. Pearce, Kevin P. Yanders