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Liste de résultats

  • Basic idea proposed in the paper: * [httpBasic idea proposed in the paper: * [https://www.researchgate.net/publication/315589941_Novel_morphometrics-on-a-chip_CCD-_or_CMOS-lab-on-a-chip_based_on_discrete_converters_of_different_physical_and_chemical_parameters_of_histological_samples_into_the_optical_signals_with_positional_sen] Gradov, O. V. and Jablokov, A. G. (2016). Novel morphometrics-on-a-chip: CCD- or CMOS-lab-on-a-chip based on discrete converters of different physical and chemical parameters of histological samples into the optical signals with positional sensitivity for morphometry of non-optical patterns. ''Journal of Biomedical Technologies'', (2):1–29.al of Biomedical Technologies'', (2):1–29.  +
  • DIALACTRON (Configuration: CY-F3). Lens-leDIALACTRON (Configuration: CY-F3). Lens-less istrument for cylinder plastic photometric cells with the flexible extensible cell fixer for transfocator-like functioning in different regimes of photometric illumination for external light source positioning.
    Group-Biophysical Equipment Group Screenshot 4.jpg




    '''References:'''

    *[1]. Orekhov, T. K. and Gradov, O. V. (2021). Digital spectrozonal and multispectral lens-less devices with spectrophotometric temperature calibration guis for dairy farming and qualimetry of diary products. ''Lecture Notes in Networks and Systems'', volume 228, pages 300–324. DOI: 10.1007/978-3-030-77448-6_29
    -030-77448-6_29  +
  • DIALACTRON-NEPHELOTRON : Laser lens-less mDIALACTRON-NEPHELOTRON : Laser lens-less microscope-photometer and nephelometer with the compact UV-A diode laser source (2016-2018).
    * [1]. Orekhov, T. K. and Gradov, O. V. (2021). Digital spectrozonal and multispectral lens-less devices with spectrophotometric temperature calibration guis for dairy farming and qualimetry of diary products. ''Lecture Notes in Networks and Systems'', volume 228, pages 300–324. DOI: 10.1007/978-3-030-77448-6_29
    pages 300–324. DOI: 10.1007/978-3-030-77448-6_29  +
  • Device for the morphometric and photometriDevice for the morphometric and photometric measurements of the sample droplets supplied from the pipette / micropipette tips and cuvettes/ cells (2017-2020). This setup can be used with the permanent monitoring of temperature and humidity in the cell and in the external medium [https://link.springer.com/chapter/10.1007/978-3-030-77448-6_29].
    Spectrozonal LED-Assisted Measurement Regimes.jpg



    '''References:'''
    [1].
    Orekhov, T. K. and Gradov, O. V. (2021). Digital spectrozonal and multispectral lens-less devices with spectrophotometric temperature calibration guis for dairy farming and qualimetry of diary products. ''Lecture Notes in Networks and Systems'', volume 228, pages 300–324. DOI: 10.1007/978-3-030-77448-6_29
    29  +
  • Instruments for polarizing lens-less microInstruments for polarizing lens-less microscopy and microphotometry (see above mentioned review paper) : * [1]. Orekhov, T. K. and Gradov, O. V. (2021). Digital spectrozonal and multispectral lens-less devices with spectrophotometric temperature calibration guis for dairy farming and qualimetry of diary products. ''Lecture Notes in Networks and Systems'', volume 228, pages 300–324. DOI: 10.1007/978-3-030-77448-6_29).0–324. DOI: 10.1007/978-3-030-77448-6_29).  +
  • Instruments for polarizing lens-less microInstruments for polarizing lens-less microscopy and microphotometry of anisotropic diary or other crystallized media in dehydration / rehydration tests (“facial structures”) [1].
    Group-Biophysical Equipment Group Screenshot 2.jpg



    '''References:'''

    *[1]. Orekhov, T. K. and Gradov, O. V. (2021). Digital spectrozonal and multispectral lens-less devices with spectrophotometric temperature calibration guis for dairy farming and qualimetry of diary products. ''Lecture Notes in Networks and Systems'', volume 228, pages 300–324. DOI: 10.1007/978-3-030-77448-6_29
    8-6_29  +
  • Lens-Less Microscopes with 206 nm and 254 Lens-Less Microscopes with 206 nm and 254 nm filters (design: O. Gradov, F. Orehov) [https://www.researchgate.net/publication/374849913_Towards_Ultraviolet_Microbeam_Scanning_and_Lens-Less_UV_Microbeam_Microscopy_with_Mirror_Galvanometric_Scanners_From_the_History_of_Research_Instrumentation_to_Engineering_of_Modern_Mechatronic_Optica].
    Group-Biophysical Equipment Group Screenshot 3.jpg



    '''References:'''

    * [2]. Orekhov, F. K. and Gradov, O. V. (2023). Towards ultraviolet microbeam scanning and lens-less UV microbeam microscopy with mirror galvanometric scanners: From the history of research instrumentation to engineering of modern mechatronic optical systems. ''Journal of Sensor Networks and Data Communications'', 3(1):117–137 (Invited Paper).
      +
  • See video:<div class="annotatedImageDivSee video:
    Group-Biophysical Equipment Group Screenshot j.jpg

      +
  • The first version of the multiparametric rThe first version of the multiparametric reader system for multidescriptor mapping of biological samples.
    Group-Biophysical Equipment Group 273269b098317eb8ce81d1a7e08759b3.jpg



    The second version of the multiparametric reader system for multidescriptor mapping of biological samples.
    Group-Biophysical Equipment Group 943559d5aeb0cc8ec9fdf452f3f4c74b.jpg
    Group-Biophysical Equipment Group E0ce03a836f36d7900978663c8f25f6c.jpg
    Redox-signal conversion into the optical signal using colorimetric / spectrocolorimetric “chemical pixels” (“chemical resells” / “sensels”): A,C – baseline (reactive film without detective dye response); B,D – indicator signal. Equivalent mosaic sensor-converter elements may be assembled using different converters and indicators (not only “pH-pixels” / “pХ-pixels”, but also “electric luminescence pixels”, “magnetic field pixels”, “radiation pixels”).



    * [https://www.researchgate.net/publication/315589941_Novel_morphometrics-on-a-chip_CCD-_or_CMOS-lab-on-a-chip_based_on_discrete_converters_of_different_physical_and_chemical_parameters_of_histological_samples_into_the_optical_signals_with_positional_sen] Gradov, O. V. and Jablokov, A. G. (2016). Novel morphometrics-on-a-chip: CCD- or CMOS-lab-on-a-chip based on discrete converters of different physical and chemical parameters of histological samples into the optical signals with positional sensitivity for morphometry of non-optical patterns. ''Journal of Biomedical Technologies'', (2):1–29.
      
  • Ultracompact lab-on-a-chip reader with USBUltracompact lab-on-a-chip reader with USB and TRS.
    Group-Biophysical Equipment Group 54c3e61189ff8954128c52e616537ed4.jpg






    *[https://www.researchgate.net/publication/315589941_Novel_morphometrics-on-a-chip_CCD-_or_CMOS-lab-on-a-chip_based_on_discrete_converters_of_different_physical_and_chemical_parameters_of_histological_samples_into_the_optical_signals_with_positional_sen] Gradov, O. V. and Jablokov, A. G. (2016). Novel morphometrics-on-a-chip: CCD- or CMOS-lab-on-a-chip based on discrete converters of different physical and chemical parameters of histological samples into the optical signals with positional sensitivity for morphometry of non-optical patterns. ''Journal of Biomedical Technologies'', (2):1–29.
    es'', (2):1–29.  +
  • [[CCD-or CMOS-lab-on-a-chip based on discrete converters of different physical and chemical parameters of samples into the optical signals with positional sensitivity for morphometry of non-optical patterns]]  +