Patents by Inventor Lewis Hamilton
Lewis Hamilton 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: 11994364Abstract: The disclosure relates to a viewing optic. In one embodiment, the disclosure relates to a display system for a viewing optic. In one embodiment, the disclosure relates to a viewing optic having a display system with multiple active displays for generating images that are projected into a first focal plane of an optical system.Type: GrantFiled: August 7, 2019Date of Patent: May 28, 2024Assignee: SHELTERED WINGS, INC.Inventors: Samuel J. Hamilton, Ian Klemm, Calen Havens, Tom Cody, Craig Schultz, Garrison Bollig, Andy Carlson, William Lowry, Alexander Lewis, Nicholas B. Laufenberg
-
Patent number: 11958849Abstract: Disclosed herein are compounds and compositions useful in the treatment of GLS1 mediated diseases, such as cancer, having the structure of Formula I: Methods of inhibition GLS1 activity in a human or animal subject are also provided.Type: GrantFiled: April 25, 2022Date of Patent: April 16, 2024Assignee: Board of Regents, The University of Texas SystemInventors: Maria Emilia Di Francesco, Philip Jones, Timothy Heffernan, Matthew M. Hamilton, Zhijun Kang, Michael J. Soth, Jason P. Burke, Kang Le, Christopher Lawrence Carroll, Wylie S. Palmer, Richard Lewis, Timothy McAfoos, Barbara Czako, Gang Liu, Jay Theroff, Zachary Herrera, Anne Yau
-
Publication number: 20240088317Abstract: Approaches for fabricating one-dimensional metallization for solar cells, and the resulting solar cells, are described. In an example, a solar cell includes a substrate having a back surface and an opposing light-receiving surface. A plurality of alternating N-type and P-type semiconductor regions is disposed in or above the back surface of the substrate and parallel along a first direction to form a one-dimensional layout of emitter regions for the solar cell. A conductive contact structure is disposed on the plurality of alternating N-type and P-type semiconductor regions. The conductive contact structure includes a plurality of metal lines corresponding to the plurality of alternating N-type and P-type semiconductor regions. The plurality of metal lines is parallel along the first direction to form a one-dimensional layout of a metallization layer for the solar cell.Type: ApplicationFiled: November 17, 2023Publication date: March 14, 2024Inventors: RICHARD HAMILTON SEWELL, DAVID FREDRIC JOEL KAVULAK, LEWIS ABRA, THOMAS P. PASS, TAESEOK KIM, MATTHIEU MOORS, BENJAMIN IAN HSIA, GABRIEL HARLEY
-
Patent number: 7741044Abstract: A method of making a set of labelled compounds by the use of a preferably particulate support, comprises dividing the support into lots, performing a different chemical reaction on each lot of the support, e.g. to couple a chemical moiety to that lot of the support, tagging a fraction of each lot of the support with a different label, and combining the said lots of the support. The steps are repeated several times, preferably to build up oligomer molecules carrying labels which identify the nature and position of a monomer unit of the oligomer, and which are releasable from the support. Preferred labels, which are releasable from the compounds by cleavage to provide charged groups for analysis by mass spectrometry, are groups of the trityl (trimethylphenyl) family. Also claimed are libraries of these labels and their use in assays and nucleic acid analysis methods.Type: GrantFiled: May 4, 2007Date of Patent: June 22, 2010Inventors: Edwin Mellor Southern, Mikhail Sergeevich Shchepinov, John Nicholas Housby, Alan Lewis Hamilton, John Kenneth Elder
-
Publication number: 20090029866Abstract: A method of making a set of labelled compounds by the use of a preferably particulate support, comprises dividing the support into lots, performing a different chemical reaction on each lot of the support, e.g. to couple a chemical moiety to that lot of the support, tagging a fraction of each lot of the support with a different label, and combining the said lots of the support. The steps are repeated several times, preferably to build up oligomer molecules carrying labels which identify the nature and position of a monomer unit of the oligomer, and which are releasable from the support. Preferred labels, which are releasable from the compounds by cleavage to provide charged groups for analysis by mass spectrometry, are groups of the trityl (trimethylphenyl) family. Also claimed are libraries of these labels and their use in assays and nucleic acid analysis methods.Type: ApplicationFiled: May 4, 2007Publication date: January 29, 2009Inventors: Edwin Mellor Southern, Mikhail Sergeevich Shchepinov, John Nicholas Housby, Alan Lewis Hamilton, John Kenneth Elder
-
Patent number: 7399846Abstract: A method of making a set of labelled compounds by the use of a preferably particulate support, comprises dividing the support into lots, performing a different chemical reaction on each lot of the support, e.g. to couple a chemical moiety to that lot of the support, tagging a fraction of each lot of the support with a different label, and combining the said lots of the support. The steps are repeated several times, preferably to build up oligomer molecules carrying labels which identify the nature and position of a monomer unit of the oligomer, and which are releasable from the support. Preferred labels, which are releasable from the compounds by cleavage to provide charged groups for analysis by mass spectrometry, are groups of the trityl (trimethylphenyl) family. Also claimed are libraries of these labels and their use in assays and nucleic acid analysis methods.Type: GrantFiled: May 11, 2004Date of Patent: July 15, 2008Assignee: Oxford Gene Technology IP LimitedInventors: Edwin Mellor Southern, Mikhail Sergeevich Shchepinov, John Nicholas Housby, Alan Lewis Hamilton, John Kenneth Elder
-
Patent number: 6780981Abstract: A method of making a set of labelled compounds by the use of a preferably particulate support, comprises dividing the support into lots, performing a different chemical reaction on each lot of the support, e.g. to couple a chemical moiety to that lot of the support, tagging a fraction of each lot of the support with a different label, and combining the said lots of the support. The steps are repeated several times, preferably to build up oligomer molecules carrying labels which identify the nature and position of a monomer unit of the oligomer, and which are releasable from the support. Preferred labels, which are releasable from the compounds by cleavage to provide charged groups for analysis by mass spectrometry, are groups of the trityl (trimethylphenyl) family. Also claimed are libraries of these labels and their use in assays and nucleic acid analysis methods.Type: GrantFiled: May 8, 2001Date of Patent: August 24, 2004Assignee: Oxford Gene Technology IP LimitedInventors: Edwin Mellor Southern, Mikhail Sergeevich Shchepinov, John Nicholas Housby, Alan Lewis Hamilton, John Kenneth Elder
-
Publication number: 20040159654Abstract: A susceptor composition that can bond two or more layers or substrates to one another and that can be used to coat or cut a substrate. The susceptor composition is activated in the presence of radio frequency (RF) energy. In one embodiment, the susceptor composition of the present invention comprises a susceptor and a carrier. The carrier and susceptor are blended with one another and form a mixture, preferably a uniform mixture. The susceptor is present in an amount effective to allow the susceptor composition to be heated by RF energy. In a preferred embodiment, the susceptor also functions as an adhesive. The susceptor is an ionic or polar compound and acts as either a charge-carrying or an oscillating/vibrating component of the susceptor composition. The susceptor generates thermal energy in the presence of an RF electromagnetic or electrical field (hereafter RF field).Type: ApplicationFiled: June 27, 2003Publication date: August 19, 2004Applicant: Codaco, Inc.Inventors: William J. Ryan, Manfred Luttinger, Bhima Vijayendran, Jonathan M. Gorbold, Lewis Hamilton, Steve Skewes, Gary C. Adishian, Daniel J. Lincoln, Robert Sengillo, John Cunliffe
-
Patent number: 6600142Abstract: A susceptor composition that can bond two or more layers or substrates to one another and that can be used to coat or cut a substrate. The susceptor composition is activated in the presence of radio frequency (RF) energy. In one embodiment, the susceptor composition of the present invention comprises a susceptor and a carrier. The carrier and susceptor are blended with one another and form a mixture, preferably a uniform mixture. The susceptor is present in an amount effective to allow the susceptor composition to be heated by RF energy. In a preferred embodiment, the susceptor also functions as an adhesive. The susceptor is an ionic or polar compound and acts as either a charge-carrying or an oscillating/vibrating component of the susceptor composition. The susceptor generates thermal energy in the presence of an RF electromagnetic or electrical field (hereafter RF field).Type: GrantFiled: February 19, 2002Date of Patent: July 29, 2003Assignee: Codaco, Inc.Inventors: William J. Ryan, Manfred Luttinger, Bhima Vijayendran, Lewis Hamilton
-
Publication number: 20030102305Abstract: A susceptor composition that can bond two or more layers or substrates to one another and that can be used to coat or cut a substrate. The susceptor composition is activated in the presence of radio frequency (RF) energy. In one embodiment, the susceptor composition of the present invention comprises a susceptor and a carrier. The carrier and susceptor are blended with one another and form a mixture, preferably a uniform mixture. The susceptor is present in an amount effective to allow the susceptor composition to be heated by RF energy. In a preferred embodiment, the susceptor also functions as an adhesive. The susceptor is an ionic or polar compound and acts as either a charge-carrying or an oscillating/vibrating component of the susceptor composition. The susceptor generates thermal energy in the presence of an RF electromagnetic or electrical field (hereafter RF field).Type: ApplicationFiled: February 19, 2002Publication date: June 5, 2003Applicant: Ameritherm, Inc.Inventors: William J. Ryan, Manfred Luttinger, Bhima Vijayendran, Lewis Hamilton
-
Patent number: 6348679Abstract: A susceptor composition that can bond two or more layers or substrates to one another and that can be used to coat or cut a substrate. The susceptor composition is activated in the presence of radio frequency (RF) energy. In one embodiment, the susceptor composition of the present invention comprises a susceptor and a carrier. The carrier and susceptor are blended with one another and form a mixture, preferably a uniform mixture. The susceptor is present in an amount effective to allow the susceptor composition to be heated by RF energy. In a preferred embodiment, the susceptor also functions as an adhesive. The susceptor is an ionic or polar compound and acts as either a charge-carrying or an oscillating/vibrating component of the susceptor composition. The susceptor generates thermal energy in the presence of an RF electromagnetic or electrical field (hereafter RF field).Type: GrantFiled: January 13, 2000Date of Patent: February 19, 2002Assignee: Ameritherm, Inc.Inventors: William J. Ryan, Manfred Luttinger, Bhima Vijayendran, Jonathan M. Gorbold, Lewis Hamilton, Steve Skewes, Gary C. Adishian, Daniel J. Lincoln, Robert Sengillo, Jr., John Cunliffe
-
Patent number: 6140494Abstract: Novel squarate dyes are described, and adducts of these dyes with biologically significant chemical species such as nucleosides or nucleotides. The adducts have useful properties for fluorescent nucleic acid sequencing methods.Type: GrantFiled: May 12, 1999Date of Patent: October 31, 2000Assignee: Amersham Pharmacia Biotech UK LimitedInventors: Alan Lewis Hamilton, Richard Martin West, William Jonathan Cummins, Mark Samuel Jonathan Briggs, Ian Edward Bruce