Patents by Inventor Eugene F. Young

Eugene F. Young 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: 10768110
    Abstract: An apparatus and method are provided for differentiating multiple detectable signals by excitation wavelength. The apparatus can include a light source that can emit respective excitation light wavelengths or wavelength ranges towards a sample in a sample retaining region, for example, in a well. The sample can contain two or more detectable markers, for example, fluorescent dyes, each of which can be capable of generating increased detectable emissions when excited in the presence of a target component. The detectable markers can have excitation wavelength ranges and/or emission wavelength ranges that overlap with the ranges of the other detectable markers. A detector can be arranged for detecting an emission wavelength or wavelength range emitted from a first marker within the overlapping wavelength range of at least one of the other markers.
    Type: Grant
    Filed: December 18, 2009
    Date of Patent: September 8, 2020
    Assignee: Applied Biosystems, LLC
    Inventors: Howard G. King, Steven J. Boege, Eugene F. Young, Mark F. Oldham
  • Patent number: 10642179
    Abstract: The present disclosure relates to toner compositions containing an IR-taggant, and method of making thereof. The disclosure also relates to method for confirming authenticity of an item.
    Type: Grant
    Filed: January 24, 2018
    Date of Patent: May 5, 2020
    Assignee: XEROX CORPORATION
    Inventors: Yu Qi, Eugene F. Young, Shigeng Li, Chieh-Min Cheng, Richard P. N. Veregin, Laura Jenson
  • Patent number: 10495996
    Abstract: A toner composition includes toner particles having a resin and a colorant, the composition further including an infrared luminescent taggant disposed on the surface of the toner particles. A method of making a toner composition includes toner particles having a resin and a colorant, the composition further including an infrared luminescent taggant disposed on the surface of the toner particles, the method includes blending toner particles with a surface additive package that includes the infrared luminescent taggant. An article includes a printed image disposed on the article, the printed image made with a toner composition including toner particles having a resin and a colorant, the composition further including an infrared luminescent taggant disposed on the surface of the toner particles, the printed image allowing authentication of the article by infrared detection of the infrared luminescent taggant.
    Type: Grant
    Filed: October 2, 2018
    Date of Patent: December 3, 2019
    Assignee: XEROX CORPORATION
    Inventors: Yu Qi, Jaclyn Janis, Eugene F. Young, Shigeng Li, Chieh-Min Cheng
  • Publication number: 20190227452
    Abstract: The present disclosure relates to toner compositions containing an IR-taggant, and method of making thereof. The disclosure also relates to method for confirming authenticity of an item.
    Type: Application
    Filed: January 24, 2018
    Publication date: July 25, 2019
    Inventors: Yu Qi, Eugene F. Young, Shigeng Li, Chieh-Min Cheng, Richard P.N. Veregin, Laura Jenson
  • Patent number: 9914123
    Abstract: A cover for a biological sample well tray, comprising a cap for sealing a sample well. The cap comprises a well lens for focusing light into the sample well and collecting light from the sample. In another aspect, the cap comprises an elongate portion configured to permit incoming light to pass into the sample well and out of the sample well. Various other aspects comprise a microcard for biological material, and an apparatus for a plurality of sample well strips. A method for testing a biological sample is also provided.
    Type: Grant
    Filed: November 2, 2015
    Date of Patent: March 13, 2018
    Assignee: Applied Biosystems, LLC
    Inventors: Eugene F. Young, Steven J. Boege, Donald R. Sandell
  • Patent number: 9823195
    Abstract: An instrument is provided that can monitor nucleic acid sequence amplification reactions, for example, PCR amplification of DNA and DNA fragments. The instrument includes a multi-notch filter disposed along one or both of an excitation beam path and an emission beam path. Methods are also provided for monitoring nucleic acid sequence amplifications using an instrument that includes a multi-notch filter disposed along a beam path.
    Type: Grant
    Filed: January 23, 2013
    Date of Patent: November 21, 2017
    Assignee: LIFE TECHNOLOGIES CORPORATION
    Inventors: Mark F. Oldham, Eugene F. Young
  • Patent number: 9719925
    Abstract: An apparatus and method are provided for differentiating multiple detectable signals by excitation wavelength. The apparatus can include a light source that can emit respective excitation light wavelengths or wavelength ranges towards a sample in a sample retaining region, for example, in a well. The sample can contain two or more detectable markers, for example, fluorescent dyes, each of which can be capable of generating increased detectable emissions when excited in the presence of a target component. The detectable markers can have excitation wavelength ranges and/or emission wavelength ranges that overlap with the ranges of the other detectable markers. A detector can be arranged for detecting an emission wavelength or wavelength range emitted from a first marker within the overlapping wavelength range of at least one of the other markers.
    Type: Grant
    Filed: June 16, 2015
    Date of Patent: August 1, 2017
    Assignee: Applied Biosystems, LLC
    Inventors: Howard G. King, Steven J. Boege, Eugene F. Young, Mark F. Oldham
  • Patent number: 9671342
    Abstract: An optical instrument monitors PCR replication of DNA in a reaction apparatus having a temperature cycled block with vials of reaction ingredients including dye that fluoresces in presence of double-stranded DNA. A beam splitter passes an excitation beam to the vials to fluoresce the dye. An emission beam from the dye is passed by the beam splitter to a CCD detector from which a processor computes DNA concentration. A reference strip with a plurality of reference emitters emit reference beams of different intensity, from which the processor selects an optimum emitter for compensating for drift. Exposure time is automatically adjusted for keeping within optimum dynamic ranges of the CCD and processor. A module of the beam splitter and associated optical filters is associated with selected dye, and is replaceable for different dyes.
    Type: Grant
    Filed: May 17, 2007
    Date of Patent: June 6, 2017
    Assignee: LIFE TECHNOLOGIES CORPORATION
    Inventors: Michael R. Gambini, Edward J. Lakatos, Anthony L. Cerrone, Eugene F. Young, Susan Atwood Stone
  • Publication number: 20160305881
    Abstract: An optical instrument is provided for simultaneously illuminating two or more spaced-apart reaction regions with an excitation beam generated by a light source. A collimating lens can be disposed along a beam path between the light source and the reaction regions to form bundles of collimated excitation beams, wherein each bundle corresponds to a respective reaction region. Methods of analysis using the optical instrument are also provided.
    Type: Application
    Filed: March 9, 2016
    Publication date: October 20, 2016
    Inventors: Steven J. BOEGE, Mark F. OLDHAM, Eugene F. YOUNG
  • Publication number: 20160178522
    Abstract: An optical instrument monitors PCR replication of DNA in a reaction apparatus having a temperature cycled block with vials of reaction ingredients including dye that fluoresces in presence of double-stranded DNA. A beam splitter passes an excitation beam to the vials to fluoresce the dye. An emission beam from the dye is passed by the beam splitter to a CCD detector from which a processor computes DNA concentration. A reference strip with a plurality of reference emitters emit reference beams of different intensity, from which the processor selects an optimum emitter for compensating for drift. Exposure time is automatically adjusted for keeping within optimum dynamic ranges of the CCD and processor. A module of the beam splitter and associated optical filters is associated with selected dye, and is replaceable for different dyes.
    Type: Application
    Filed: January 18, 2016
    Publication date: June 23, 2016
    Inventors: Michael R. GAMBINI, Edward J. LAKATOS, Anthony L. CERRONE, Eugene F. YOUNG, John G. ATWOOD
  • Publication number: 20160178521
    Abstract: An optical instrument monitors PCR replication of DNA in a reaction apparatus having a temperature cycled block with vials of reaction ingredients including dye that fluoresces in presence of double-stranded DNA. A beam splitter passes an excitation beam to the vials to fluoresce the dye. An emission beam from the dye is passed by the beam splitter to a CCD detector from which a processor computes DNA concentration. A reference strip with a plurality of reference emitters emit reference beams of different intensity, from which the processor selects an optimum emitter for compensating for drift. Exposure time is automatically adjusted for keeping within optimum dynamic ranges of the CCD and processor. A module of the beam splitter and associated optical filters is associated with selected dye, and is replaceable for different dyes.
    Type: Application
    Filed: January 18, 2016
    Publication date: June 23, 2016
    Inventors: Michael R. GAMBINI, Edward J. LAKATOS, Anthony L. CERRONE, Eugene F. YOUNG, John G. ATWOOD
  • Publication number: 20160158749
    Abstract: A cover for a biological sample well tray, comprising a cap for sealing a sample well. The cap comprises a well lens for focusing light into the sample well and collecting light from the sample. In another aspect, the cap comprises an elongate portion configured to permit incoming light to pass into the sample well and out of the sample well. Various other aspects comprise a microcard for biological material, and an apparatus for a plurality of sample well strips. A method for testing a biological sample is also provided.
    Type: Application
    Filed: November 2, 2015
    Publication date: June 9, 2016
    Inventors: Eugene F. YOUNG, Steven J. BOEGE, Donald R. SANDELL
  • Patent number: 9285318
    Abstract: An optical instrument is provided for simultaneously illuminating two or more spaced-apart reaction regions with an excitation beam generated by a light source. A collimating lens can be disposed along a beam path between the light source and the reaction regions to form bundles of collimated excitation beams, wherein each bundle corresponds to a respective reaction region. Methods of analysis using the optical instrument are also provided.
    Type: Grant
    Filed: September 14, 2012
    Date of Patent: March 15, 2016
    Assignee: Applied Biosystems, LLC
    Inventors: Steven J. Boege, Mark F. Oldham, Eugene F. Young
  • Patent number: 9273353
    Abstract: An optical instrument monitors PCR replication of DNA in a reaction apparatus having a temperature cycled block with vials of reaction ingredients including dye that fluoresces in presence of double-stranded DNA. A beam splitter passes an excitation beam to the vials to fluoresce the dye. An emission beam from the dye is passed by the beam splitter to a CCD detector from which a processor computes DNA concentration. A reference strip with a plurality of reference emitters emit reference beams of different intensity, from which the processor selects an optimum emitter for compensating for drift. Exposure time is automatically adjusted for keeping within optimum dynamic ranges of the CCD and processor. A module of the beam splitter and associated optical filters is associated with selected dye, and is replaceable for different dyes.
    Type: Grant
    Filed: June 4, 2015
    Date of Patent: March 1, 2016
    Assignee: Life Technologies Corporation
    Inventors: Michael R. Gambini, John G. Atwood, Anthony L. Cerrone, Edward J. Lakatos, Eugene F. Young
  • Publication number: 20150322488
    Abstract: An optical instrument monitors PCR replication of DNA in a reaction apparatus having a temperature cycled block with vials of reaction ingredients including dye that fluoresces in presence of double-stranded DNA. A beam splitter passes an excitation beam to the vials to fluoresce the dye. An emission beam from the dye is passed by the beam splitter to a CCD detector from which a processor computes DNA concentration. A reference strip with a plurality of reference emitters emit reference beams of different intensity, from which the processor selects an optimum emitter for compensating for drift. Exposure time is automatically adjusted for keeping within optimum dynamic ranges of the CCD and processor. A module of the beam splitter and associated optical filters is associated with selected dye, and is replaceable for different dyes.
    Type: Application
    Filed: June 4, 2015
    Publication date: November 12, 2015
    Inventors: Michael R. GAMBINI, John G. ATWOOD, Anthony L. CERRONE, Edward J. LAKATOS, Eugene F. YOUNG
  • Publication number: 20150293024
    Abstract: An apparatus and method are provided for differentiating multiple detectable signals by excitation wavelength. The apparatus can include a light source that can emit respective excitation light wavelengths or wavelength ranges towards a sample in a sample retaining region, for example, in a well. The sample can contain two or more detectable markers, for example, fluorescent dyes, each of which can be capable of generating increased detectable emissions when excited in the presence of a target component. The detectable markers can have excitation wavelength ranges and/or emission wavelength ranges that overlap with the ranges of the other detectable markers. A detector can be arranged for detecting an emission wavelength or wavelength range emitted from a first marker within the overlapping wavelength range of at least one of the other markers.
    Type: Application
    Filed: June 16, 2015
    Publication date: October 15, 2015
    Inventors: Howard G. King, Steven J. Boege, Eugene F. Young, Mark F. Oldham
  • Patent number: 9017916
    Abstract: A process for making a latex emulsion including contacting a resin dissolved in a solvent with an absorbent glass that binds the solvent to produce a latex emulsion.
    Type: Grant
    Filed: December 12, 2013
    Date of Patent: April 28, 2015
    Assignee: Xerox Corporation
    Inventors: Shigeng Li, Eugene F Young
  • Patent number: 8921098
    Abstract: An instrument for monitoring replication of DNA is provided.
    Type: Grant
    Filed: April 18, 2006
    Date of Patent: December 30, 2014
    Assignee: Applied Biosystems, LLC
    Inventors: Michael R. Gambini, Edward J. Lakatos, Anthony L. Cerrone, Eugene F. Young, Susan Atwood Stone, Judith K. Atwood
  • Patent number: 8809040
    Abstract: An apparatus and method are provided for differentiating multiple detectable signals by excitation wavelength. The apparatus can include a light source that can emit respective excitation light wavelengths or wavelength ranges towards a sample in a sample retaining region, for example, in a well. The sample can contain two or more detectable markers, for example, fluorescent dyes, each of which can be capable of generating increased detectable emissions when excited in the presence of a target component. The detectable markers can have excitation wavelength ranges and/or emission wavelength ranges that overlap with the ranges of the other detectable markers. A detector can be arranged for detecting an emission wavelength or wavelength range emitted from a first marker within the overlapping wavelength range of at least one of the other markers.
    Type: Grant
    Filed: December 21, 2011
    Date of Patent: August 19, 2014
    Assignee: Applied Biosystems, LLC
    Inventors: Howard G. King, Steven J. Boege, Eugene F. Young, Mark F. Oldham
  • Patent number: 8685607
    Abstract: The continuous process for manufacturing toners disclosed herein includes continuously feeding components of a toner composition into a feed section of a screw extruder at a controlled rate. The continuous process for manufacturing toners may include feeding the components of a toner composition into the feed section of a screw extruder without performing an external or secondary dispersion step. That is to say, the components of the toner composition may be fed directly into the extruder without using dispersions of individual components as used in batch processes. Rather, the toner components are added to the extruder in dry form, melt-mixed, and may be dispersed in aqueous form in the extruder. The process may produce micron-sized toner particles, thus no further size reduction may be necessary.
    Type: Grant
    Filed: August 29, 2012
    Date of Patent: April 1, 2014
    Assignee: Xerox Corporation
    Inventors: Joo T. Chung, Chieh-Min Cheng, Zhen Lai, Mark E. Mang, Eugene F. Young, Brian Andaya, Joseph Leonardo