Patents by Inventor Alexandre Dazzi

Alexandre Dazzi 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: 11237105
    Abstract: A system for measuring the absorption of a laser radiation by a sample is provided. The system comprises: •(i) a pulsed laser source, suitable for emitting pulses at a repetition frequency fl and arranged so as to illuminate the sample; •(ii) an AFM probe arranged so as to be able to be placed in contact with the region of the surface of the sample on one side, the AFM probe having a mechanical resonance mode at a frequency fm; and •(iii) a detector configured to measure the amplitude of the oscillations of the AFM probe resulting from the absorption of the laser radiation by the region of the surface of the sample, characterized in that it also comprises a translation system designed to displace the sample at a frequency fp.
    Type: Grant
    Filed: September 4, 2019
    Date of Patent: February 1, 2022
    Assignees: Centre National De La Recherche Scientifique, Universite Paris-Saclay
    Inventor: Alexandre Dazzi
  • Patent number: 11215637
    Abstract: A method for obtaining optical spectroscopic information about a sub-micron region of a sample with quantitatively controlled depth/volume of the sample subsurface using a scanning probe microscope. With controlled probing depth/volume, the method can separate top surface data from subsurface optical/chemical information. The method can also be applied in liquid suitable for studying biological and chemical samples in their native aqueous environments, as opposed to air. In the method, a depth-controlled spectrum of the surface layer is constructed by illuminating the sample with a beam of infrared radiation and measuring a probe response using at least one of the resonant frequencies of the probe. The surface sensitivity is obtained by limiting the heat diffusion effect of the subsurface so as to confine the signal. The signal confinement is achieved through non-linearity of the acoustic wave with probe, as well as benefits gained by a high modulation frequency of the infrared radiation source at >1 MHz.
    Type: Grant
    Filed: July 28, 2020
    Date of Patent: January 4, 2022
    Assignee: Bruker Nano, Inc.
    Inventors: Alexandre Dazzi, Anirban Roy, Honghua Yang
  • Publication number: 20210341385
    Abstract: A system for measuring the absorption of a laser radiation by a sample is provided. The system comprises: •(i) a pulsed laser source, suitable for emitting pulses at a repetition frequency f1 and arranged so as to illuminate the sample; •(ii) an AFM probe arranged so as to be able to be placed in contact with the region of the surface of the sample on one side, the AFM probe having a mechanical resonance mode at a frequency fm; and •(iii) a detector configured to measure the amplitude of the oscillations of the AFM probe resulting from the absorption of the laser radiation by the region of the surface of the sample, characterized in that it also comprises a translation system designed to displace the sample at a frequency fp.
    Type: Application
    Filed: September 4, 2019
    Publication date: November 4, 2021
    Inventor: Alexandre DAZZI
  • Publication number: 20210011053
    Abstract: A method for obtaining optical spectroscopic information about a sub-micron region of a sample with quantitatively controlled depth/volume of the sample subsurface using a scanning probe microscope. With controlled probing depth/volume, the method can separate top surface data from subsurface optical/chemical information. The method can also be applied in liquid suitable for studying biological and chemical samples in their native aqueous environments, as opposed to air. In the method, a depth-controlled spectrum of the surface layer is constructed by illuminating the sample with a beam of infrared radiation and measuring a probe response using at least one of the resonant frequencies of the probe. The surface sensitivity is obtained by limiting the heat diffusion effect of the subsurface so as to confine the signal. The signal confinement is achieved through non-linearity of the acoustic wave with probe, as well as benefits gained by a high modulation frequency of the infrared radiation source at >1 MHz.
    Type: Application
    Filed: July 28, 2020
    Publication date: January 14, 2021
    Inventors: Alexandre Dazzi, Anirban Roy, Honghua Yang
  • Patent number: 8607622
    Abstract: An AFM based technique has been demonstrated for performing highly localized IR spectroscopy on a sample surface. Such a technique implemented in a commercially viable analytical instrument would be extremely useful. Various aspects of the experimental set-up have to be changed to create a commercial version. The invention addresses many of these issues thereby producing a version of the analytical technique that can be made generally available to the scientific community.
    Type: Grant
    Filed: July 18, 2011
    Date of Patent: December 17, 2013
    Assignee: Anasys Instruments Corporation
    Inventors: Alexandre Dazzi, Rui Prazeres, Kevin Kjoller, Michael Reading
  • Patent number: 8001830
    Abstract: An AFM based technique has been demonstrated for performing highly localized IR spectroscopy on a sample surface. Such a technique implemented in a commercially viable analytical instrument would be extremely useful. Various aspects of the experimental set-up have to be changed to create a commercial version. The invention addresses many of these issues thereby producing a version of the analytical technique that cab be made generally available to the scientific community.
    Type: Grant
    Filed: May 15, 2007
    Date of Patent: August 23, 2011
    Assignee: Anasys Instruments, Inc.
    Inventors: Alexandre Dazzi, Rui Prazeres, Kevin Kjoller, Michael Reading