Patents by Inventor Robert W. Standley

Robert W. Standley 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: 11942360
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Grant
    Filed: March 13, 2023
    Date of Patent: March 26, 2024
    Assignee: GlobalWafers Co., Ltd.
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Patent number: 11887885
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Grant
    Filed: October 19, 2022
    Date of Patent: January 30, 2024
    Assignee: GlobalWafers Co., Ltd.
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Publication number: 20230215759
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Application
    Filed: March 13, 2023
    Publication date: July 6, 2023
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Patent number: 11626318
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Grant
    Filed: April 19, 2021
    Date of Patent: April 11, 2023
    Assignee: GlobalWafers Co., Ltd.
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Publication number: 20230062816
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Application
    Filed: October 19, 2022
    Publication date: March 2, 2023
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Patent number: 11532501
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Grant
    Filed: February 3, 2021
    Date of Patent: December 20, 2022
    Assignee: GlobalWafers Co., Ltd.
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Publication number: 20210242075
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Application
    Filed: April 19, 2021
    Publication date: August 5, 2021
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Patent number: 11075109
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Grant
    Filed: July 11, 2019
    Date of Patent: July 27, 2021
    Assignee: GlobalWafers Co., Ltd.
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Publication number: 20210159114
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Application
    Filed: February 3, 2021
    Publication date: May 27, 2021
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Patent number: 10943813
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Grant
    Filed: June 26, 2019
    Date of Patent: March 9, 2021
    Assignee: GlobalWafers Co., Ltd.
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Publication number: 20200020571
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Application
    Filed: July 11, 2019
    Publication date: January 16, 2020
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Publication number: 20200020766
    Abstract: A semiconductor-on-insulator (e.g., silicon-on-insulator) structure having superior radio frequency device performance, and a method of preparing such a structure, is provided by utilizing a single crystal silicon handle wafer sliced from a float zone grown single crystal silicon ingot.
    Type: Application
    Filed: June 26, 2019
    Publication date: January 16, 2020
    Inventors: Michael R. Seacrist, Robert W. Standley, Jeffrey L. Libbert, Hariprasad Sreedharamurthy, Leif Jensen
  • Patent number: 8846493
    Abstract: Silicon on insulator structures having a high resistivity region in the handle wafer of the silicon on insulator structure are disclosed. Methods for producing such silicon on insulator structures are also provided. Exemplary methods involve creating a non-uniform thermal donor profile and/or modifying the dopant profile of the handle wafer to create a new resistivity profile in the handle wafer. Methods may involve one or more SOI manufacturing steps or electronic device (e.g., RF device) manufacturing steps.
    Type: Grant
    Filed: March 13, 2012
    Date of Patent: September 30, 2014
    Assignee: SunEdison Semiconductor Limited
    Inventors: Jeffrey L. Libbert, Lu Fei, Robert W. Standley
  • Patent number: 8735261
    Abstract: A method and a system are described herein for applying etchant to edges of a plurality of wafers. The system includes a sump configured for holding etchant, a roller having an outer surface in fluid communication with the sump and configured to have etchant thereon, a wafer cassette configured to retain wafers positioned therein so that edges of the wafers are in contact with the roller. The cassette permits axial rotation of the wafers about an axis. A method of applying etchant to the edge of the wafer includes placing the wafer edge in contact with the roller and rotating the roller about a longitudinal axis of the roller. At least a portion of the roller contact an etchant contained in a sump during rotation so that etchant is applied to the wafer edge.
    Type: Grant
    Filed: November 16, 2009
    Date of Patent: May 27, 2014
    Assignee: MEMC Electronic Materials, Inc.
    Inventor: Robert W. Standley
  • Publication number: 20120235283
    Abstract: Silicon on insulator structures having a high resistivity region in the handle wafer of the silicon on insulator structure are disclosed. Methods for producing such silicon on insulator structures are also provided. Exemplary methods involve creating a non-uniform thermal donor profile and/or modifying the dopant profile of the handle wafer to create a new resistivity profile in the handle wafer. Methods may involve one or more SOI manufacturing steps or electronic device (e.g., RF device) manufacturing steps.
    Type: Application
    Filed: March 13, 2012
    Publication date: September 20, 2012
    Applicant: MEMC ELECTRONIC MATERIALS, INC.
    Inventors: Jeffrey L. Libbert, Lu Fei, Robert W. Standley
  • Publication number: 20120238070
    Abstract: Silicon on insulator structures having a high resistivity region in the handle wafer of the silicon on insulator structure are disclosed. Methods for producing such silicon on insulator structures are also provided. Exemplary methods involve creating a non-uniform thermal donor profile and/or modifying the dopant profile of the handle wafer to create a new resistivity profile in the handle wafer. Methods may involve one or more SOI manufacturing steps or electronic device (e.g., RF device) manufacturing steps.
    Type: Application
    Filed: March 13, 2012
    Publication date: September 20, 2012
    Applicant: MEMC ELECTRONIC MATERIALS, INC.
    Inventors: Jeffrey L. Libbert, Lu Fei, Robert W. Standley
  • Publication number: 20110223741
    Abstract: A method and a system are described herein for applying etchant to edges of a plurality of wafers. The system includes a sump configured for holding etchant, a roller having an outer surface in fluid communication with the sump and configured to have etchant thereon, a wafer cassette configured to retain wafers positioned therein so that edges of the wafers are in contact with the roller. The cassette permits axial rotation of the wafers about an axis. A method of applying etchant to the edge of the wafer includes placing the wafer edge in contact with the roller and rotating the roller about a longitudinal axis of the roller. At least a portion of the roller contact an etchant contained in a sump during rotation so that etchant is applied to the wafer edge.
    Type: Application
    Filed: November 16, 2009
    Publication date: September 15, 2011
    Applicant: MEMC ELECTRONIC MATERIALS, INC.
    Inventor: Robert W. Standley
  • Publication number: 20100130021
    Abstract: A method is disclosed for processing the cleaved surface of a silicon-on-insulator structure. The silicon-on-insulator structures comprises a handle wafer, a silicon layer, and a dielectric layer between the handle wafer and the silicon layer. The silicon layer has a cleaved surface defining an outer surface of the structure. The methods disclosed include an etching process to reduce the time and cost required to process the silicon-on-insulator structure to remove the surface damage and defects formed when a portion of the donor wafer is separated along a cleave plane from the silicon-on-insulator structure. The method includes, annealing the structure, etching the cleaved surface, and performing a non-contact smoothing process on the cleaved surface.
    Type: Application
    Filed: November 23, 2009
    Publication date: May 27, 2010
    Applicant: MEMC ELECTRONIC MATERIALS, INC.
    Inventors: Michael J. Ries, Robert W. Standley, Jeffrey L. Libbert, Andrew M. Jones, Gregory M. Wilson
  • Patent number: 6652650
    Abstract: A modified susceptor for use in an epitaxial deposition apparatus and process is disclosed. The modified susceptor has an inner annular ledge capable of supporting a semiconductor wafer and has a plurality of holes in the surface to allow cleaning gas utilized during an epitaxial deposition process to pass through the susceptor and contact substantially the entire back surface of the semiconductor wafer and remove a native oxide layer. Also, the plurality of holes on the susceptor allows dopant atoms out-diffused from the back surface during the epitaxial deposition process to be carried away from the front surface in an inert gas stream and into the exhaust such that autodoping of the front surface is minimized.
    Type: Grant
    Filed: August 28, 2002
    Date of Patent: November 25, 2003
    Assignee: MEMC Electronic Materials, Inc.
    Inventors: Charles Chiun-Chieh Yang, Robert W. Standley
  • Patent number: 6596095
    Abstract: A single crystal silicon wafer with a back surface free of an oxide seal and substantially free of a chemical vapor deposition process induced halo and an epitaxial silicon layer on the front surface, the epitaxial layer is characterized by an axially symmetric region extending radially outwardly from the central axis of the wafer toward the circumferential edge of the wafer having a substantially uniform resistivity, the radius of the axially symmetric region being at least about 80% of the length of the radius of the wafer.
    Type: Grant
    Filed: December 29, 2000
    Date of Patent: July 22, 2003
    Assignee: MEMC Electronic Materials, Inc.
    Inventors: Michael J. Ries, Charles Chiun-Chieh Yang, Robert W. Standley