Patents by Inventor Christopher M. Lock

Christopher M. Lock 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).

  • Publication number: 20140353490
    Abstract: The present teachings are directed to methods and apparatuses for mass spectrometry that include configuring mass spectrometry apparatus to perform a plurality of separate assays on ions fragmented from a given analyte, where each such analysis by the spectrometry apparatus is targeted at a different respective associated mass-to-charge ratio and provides a quantitative measure of the number of fragments thereof.
    Type: Application
    Filed: November 28, 2012
    Publication date: December 4, 2014
    Applicant: DH Technologies Ptd. Ltd.
    Inventors: Stephen Alexander Tate, Nicholas Bloomfield, Christopher M. Lock
  • Patent number: 6849848
    Abstract: Collisional cooling of ions in mass spectrometry has been known for sometime. It is known that collisional cooling can promote focusing of ions along the axis of an ion guide. A similar technique has been used to enhance coupling of a pulsed ion source such as a MALDI source to a Time of Flight instrument. It is now realized that it is desirable to provide, immediately adjacent to a MALDI or other ion source, a low-pressure region to promote ionization conditions most favorable for the particular ion source. Then, with the ions released and free, the ions are subjected to relatively rapid collisional cooling in a high pressure region adjacent to the ionization region. This will dissipate excess of internal energy in the ions, so as to substantially reduce the incidence of metastable fragmentation of the ions. The ions can then be subjected to conventional mass analysis steps.
    Type: Grant
    Filed: September 17, 2002
    Date of Patent: February 1, 2005
    Assignee: MDS, Inc.
    Inventors: Vladimir I. Baranov, Alexandre V. Loboda, Christopher M. Lock
  • Publication number: 20040238754
    Abstract: Collisional cooling of ions in mass spectrometry has been known for sometime. It is known that collisional cooling can promote focusing of ions along the axis of an ion guide. A similar technique has been used to enhance coupling of a pulsed ion source such as a MALDI source to a Time of Flight instrument. It is now realized that it is desirable to provide, immediately adjacent to a MALDI or other ion source, a low-pressure region to promote ionization conditions most favorable for the particular ion source. Then, with the ions released and free, the ions are subjected to relatively rapid collisional cooling in a high pressure region adjacent to the ionization region. This will dissipate excess of internal energy in the ions, so as to substantially reduce the incidence of metastable fragmentation of the ions. The ions can then be subjected to conventional mass analysis steps.
    Type: Application
    Filed: March 17, 2004
    Publication date: December 2, 2004
    Inventors: Vladimir I. Baranov, Alexandre V. Loboda, Christopher M. Lock
  • Publication number: 20030080290
    Abstract: Collisional cooling of ions in mass spectrometry has been known for sometime. It is known that collisional cooling can promote focusing of ions along the axis of an ion guide. A similar technique has been used to enhance coupling of a pulsed ion source such as a MALDI source to a Time of Flight instrument. It is now realized that it is desirable to provide, immediately adjacent to a MALDI or other ion source, a low-pressure region to promote ionization conditions most favorable for the particular ion source. Then, with the ions released and free, the ions are subjected to relatively rapid collisional cooling in a high pressure region adjacent to the ionization region. This will dissipate excess of internal energy in the ions, so as to substantially reduce the incidence of metastable fragmentation of the ions. The ions can then be subjected to conventional mass analysis steps.
    Type: Application
    Filed: September 17, 2002
    Publication date: May 1, 2003
    Inventors: Vladimir I. Baranov, Alexandre V. Loboda, Christopher M. Lock