Group:Biophysical Equipment Group : Différence entre versions

(Page créée avec « {{Group Details |group-description=https://www.youtube.com/@Neurobiophysics/videos ; https://vimeo.com/user209330965 |group-type=Community |group-url=https://www.youtube.c... »)
 
 
(16 révisions intermédiaires par le même utilisateur non affichées)
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{{Group Details
 
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|group-description=https://www.youtube.com/@Neurobiophysics/videos ; https://vimeo.com/user209330965
 
|group-description=https://www.youtube.com/@Neurobiophysics/videos ; https://vimeo.com/user209330965
 
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|Group_Machines={{Group Machines
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|group-machine-image=Group-Biophysical_Equipment_Group_170814-1840.jpg
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|group-machine-name=DIALACTRON TH2 (Configuration: DROPLETRON)
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|group-machine-description=Device 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].{{#annotatedImageLight:Fichier:Spectrozonal LED-Assisted Measurement Regimes.jpg|0=789px|hash=|jsondata=|mediaClass=Image|type=frameless|align=center|src=https://wikifab.org/images/7/77/Spectrozonal_LED-Assisted_Measurement_Regimes.jpg|href=./Fichier:Spectrozonal LED-Assisted Measurement Regimes.jpg|resource=./Fichier:Spectrozonal LED-Assisted Measurement Regimes.jpg|caption=|size=789px}}
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'''References:'''
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[1].
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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
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}}{{Group Machines
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|group-machine-image=Group-Biophysical_Equipment_Group_170815-1532_003_.jpg
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|group-machine-name=DIALACTRON _ POLAR (Configuration P1)
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|group-machine-description=Instruments for polarizing lens-less microscopy and microphotometry of anisotropic diary or other crystallized media in dehydration / rehydration tests (“facial structures”) [1].{{#annotatedImageLight:Fichier:Group-Biophysical Equipment Group Screenshot 2.jpg|0=845px|hash=|jsondata=|mediaClass=Image|type=frameless|align=center|src=https://wikifab.org/images/7/7e/Group-Biophysical_Equipment_Group_Screenshot_2.jpg|href=./Fichier:Group-Biophysical Equipment Group Screenshot 2.jpg|resource=./Fichier:Group-Biophysical Equipment Group Screenshot 2.jpg|caption=|size=845px}}
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'''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
 +
}}{{Group Machines
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|group-machine-image=Group-Biophysical_Equipment_Group_170727-1311_002_.jpg
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|group-machine-name=Lens-Less Microscopes with 206 nm and 254 nm interference filters
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|group-machine-description=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].{{#annotatedImageLight:Fichier:Group-Biophysical Equipment Group Screenshot 3.jpg|0=1094px|hash=|jsondata=|mediaClass=Image|type=frameless|align=center|src=https://wikifab.org/images/b/bd/Group-Biophysical_Equipment_Group_Screenshot_3.jpg|href=./Fichier:Group-Biophysical Equipment Group Screenshot 3.jpg|resource=./Fichier:Group-Biophysical Equipment Group Screenshot 3.jpg|caption=|size=1094px}}
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 +
 
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'''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).
 +
}}{{Group Machines
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|group-machine-image=Group-Biophysical_Equipment_Group_170815-1529_001_.jpg
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|group-machine-name=DIALACTRON _ POLAR (Configuration P94)
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|group-machine-description=Instruments 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).
 +
}}{{Group Machines
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|group-machine-image=Group-Biophysical_Equipment_Group_170815-1531_001_.jpg
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|group-machine-name=Multiparametric Lens-Less Granulometer and Filter Tester
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|group-machine-description=Basic 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.
 +
}}{{Group Machines
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|group-machine-image=Group-Biophysical_Equipment_Group_170815-1540_001_.jpg
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|group-machine-name=DIALACTRON (Configuration: CY-F3)
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|group-machine-description=DIALACTRON (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.{{#annotatedImageLight:Fichier:Group-Biophysical Equipment Group Screenshot 4.jpg|0=752px|hash=|jsondata=|mediaClass=Image|type=frameless|align=center|src=https://wikifab.org/images/7/7f/Group-Biophysical_Equipment_Group_Screenshot_4.jpg|href=./Fichier:Group-Biophysical Equipment Group Screenshot 4.jpg|resource=./Fichier:Group-Biophysical Equipment Group Screenshot 4.jpg|caption=|size=752px}}
 +
 
 +
 
 +
 
 +
'''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
 +
|group-machine-conditions=If you wish like to visit us, please contact us via e-mail:  neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.
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}}{{Group Machines
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|group-machine-image=Group-Biophysical_Equipment_Group_Screenshot_5.jpg
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|group-machine-name=DIALACTRON-NEPHELOTRON
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|group-machine-description=DIALACTRON-NEPHELOTRON : Laser lens-less microscope-photometer and nephelometer with the compact UV-A diode laser source (2016-2018).
 +
 
 +
<br />
 +
 
 +
* [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
 +
|group-machine-conditions=If you wish like to visit us, please contact us via e-mail:  neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.
 +
}}{{Group Machines
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|group-machine-image=Group-Biophysical_Equipment_Group__.jpg
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|group-machine-name=Setup for nanosecond testing of CCD-based optofluidic lens-less microscopes
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|group-machine-description=See video:{{#annotatedImageLight:Fichier:Group-Biophysical Equipment Group Screenshot j.jpg|0=551px|hash=|jsondata=|mediaClass=Image|type=frameless|align=center|src=https://wikifab.org/images/8/80/Group-Biophysical_Equipment_Group_Screenshot_j.jpg|href=./Fichier:Group-Biophysical Equipment Group Screenshot j.jpg|resource=./Fichier:Group-Biophysical Equipment Group Screenshot j.jpg|caption=|size=551px}}<br />
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|group-machine-conditions=If you wish like to visit us, please contact us via e-mail:  neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.
 +
}}{{Group Machines
 +
|group-machine-name=Multiparametric reader system for multidescriptor mapping of biological samples
 +
|group-machine-description=The first version of the multiparametric reader system for multidescriptor mapping of biological samples.{{#annotatedImageLight:Fichier:Group-Biophysical Equipment Group 273269b098317eb8ce81d1a7e08759b3.jpg|0=600px|hash=|jsondata=|mediaClass=Image|type=frameless|align=center|src=https://wikifab.org/images/5/53/Group-Biophysical_Equipment_Group_273269b098317eb8ce81d1a7e08759b3.jpg|href=./Fichier:Group-Biophysical Equipment Group 273269b098317eb8ce81d1a7e08759b3.jpg|resource=./Fichier:Group-Biophysical Equipment Group 273269b098317eb8ce81d1a7e08759b3.jpg|caption=|size=600px}}
 +
 
 +
 
 +
The second version of the multiparametric reader system for multidescriptor mapping of biological samples.{{#annotatedImageLight:Fichier:Group-Biophysical Equipment Group 943559d5aeb0cc8ec9fdf452f3f4c74b.jpg|0=600px|hash=|jsondata=|mediaClass=Image|type=frameless|align=center|src=https://wikifab.org/images/f/f3/Group-Biophysical_Equipment_Group_943559d5aeb0cc8ec9fdf452f3f4c74b.jpg|href=./Fichier:Group-Biophysical Equipment Group 943559d5aeb0cc8ec9fdf452f3f4c74b.jpg|resource=./Fichier:Group-Biophysical Equipment Group 943559d5aeb0cc8ec9fdf452f3f4c74b.jpg|caption=|size=600px}}{{#annotatedImageLight:Fichier:Group-Biophysical Equipment Group E0ce03a836f36d7900978663c8f25f6c.jpg|0=600px|hash=|jsondata=|mediaClass=Image|type=frameless|align=center|src=https://wikifab.org/images/5/55/Group-Biophysical_Equipment_Group_E0ce03a836f36d7900978663c8f25f6c.jpg|href=./Fichier:Group-Biophysical Equipment Group E0ce03a836f36d7900978663c8f25f6c.jpg|resource=./Fichier:Group-Biophysical Equipment Group E0ce03a836f36d7900978663c8f25f6c.jpg|caption=|size=600px}}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”).
 +
<br />
 +
 
 +
* [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.
 +
|group-machine-conditions=If you wish like to visit us, please contact us via e-mail:  neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.
 +
}}{{Group Machines
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|group-machine-name=Ultracompact lab-on-a-chip reader with USB and TRS.
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|group-machine-description=Ultracompact lab-on-a-chip reader with USB and TRS.{{#annotatedImageLight:Fichier:Group-Biophysical Equipment Group 54c3e61189ff8954128c52e616537ed4.jpg|0=600px|hash=|jsondata=|mediaClass=Image|type=frameless|align=center|src=https://wikifab.org/images/5/53/Group-Biophysical_Equipment_Group_54c3e61189ff8954128c52e616537ed4.jpg|href=./Fichier:Group-Biophysical Equipment Group 54c3e61189ff8954128c52e616537ed4.jpg|resource=./Fichier:Group-Biophysical Equipment Group 54c3e61189ff8954128c52e616537ed4.jpg|caption=|size=600px}}
 +
 
 +
 
 +
<br />
 +
 
 +
*[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.
 +
|group-machine-conditions=If you wish like to visit us, please contact us via e-mail:  neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.
 +
}}{{Group Machines
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|group-machine-description=[[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]]
 +
}}
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}}

Version actuelle datée du 3 janvier 2024 à 16:04

Spectrozonal LED-Assisted Measurement Regimes.jpg

Group-Biophysical Equipment Group Screenshot 5.jpg

Biophysical Equipment Group Communauté

https://www.youtube.com/@Neurobiophysics/videos ; https://vimeo.com/user209330965

Leninsky pr. 38-2, room 18, INEPCP RAS, Moscow neurobiophys@gmail.com https://www.youtube.com/@Neurobiophysics/videos



Group-Biophysical_Equipment_Group_273269b098317eb8ce81d1a7e08759b3.jpg

en
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
A novel ultra-compact analytical system for simultaneous analysis of a variety of physical and chemical parameters of different biological samples (medical or veterinary analytes, food, soil microbiota, hydrobiological water probes etc.) both in the field and laboratory conditions has been developed on the basis of a single multiparametric microchip with a set of replaceable cartridges / converters, which allows to perform a complex diagnostic procedure of the analyte. The prototypes of automatic microfluidic devices for multiparametric mapping of biochemical and synthetic analytes using planar converters-visualizers have been designed. We propose to use a lab-on-a-chip with a number of replaceable cartridges-converters of various physical parameters / variables to optical signals, which can be detected using CMOS or CCD, as a single analytic and microelectronic platform for mapping and visualization of different physical and chemical parameters. The above system allows to perform a simultaneous mapping, detection and visualization of a number of the sample characteristics, such as: magnetic field (using magnetic film indicators and flux-detectors); electrochemical parameters (potentiometric indicators); laser beam transmission outside the visible spectral range (using the doped solid matrices); distribution of the emitting regions in autoradiography (using the scintillation detectors with different quenching factors or "position-sensitive spinthariscopes"); polarization characteristics and the angular fluorescence polarization (using polaroid films with the rotation angles changed by the stepper motors); the local biothermogenesis temperature of the sample at different points on a chip (according to the NIR-HDRI thermography principles), etc.
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Oleg Gradov

L'utilisateur n'a pas rentré d'informations à son sujet

Group-Biophysical Equipment Group 170814-1840.jpg

DIALACTRON TH2 (Configuration: DROPLETRON)

Device 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 [1].

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


Group-Biophysical Equipment Group 170815-1532 003 .jpg

DIALACTRON _ POLAR (Configuration P1)

Instruments 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


Group-Biophysical Equipment Group 170727-1311 002 .jpg

Lens-Less Microscopes with 206 nm and 254 nm interference filters

Lens-Less Microscopes with 206 nm and 254 nm filters (design: O. Gradov, F. Orehov) [2].

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).


Group-Biophysical Equipment Group 170815-1529 001 .jpg

DIALACTRON _ POLAR (Configuration P94)

Instruments 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).


Group-Biophysical Equipment Group 170815-1531 001 .jpg

Multiparametric Lens-Less Granulometer and Filter Tester

Basic idea proposed in the paper:

  • [3] 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.


Group-Biophysical Equipment Group 170815-1540 001 .jpg

DIALACTRON (Configuration: CY-F3)

DIALACTRON (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

If you wish like to visit us, please contact us via e-mail: neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.


Group-Biophysical Equipment Group Screenshot 5.jpg

DIALACTRON-NEPHELOTRON

DIALACTRON-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

If you wish like to visit us, please contact us via e-mail: neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.


Group-Biophysical Equipment Group .jpg

Setup for nanosecond testing of CCD-based optofluidic lens-less microscopes

See video:

Group-Biophysical Equipment Group Screenshot j.jpg

If you wish like to visit us, please contact us via e-mail: neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.


Pas encore d'image

Multiparametric reader system for multidescriptor mapping of biological samples

The 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”).


  • [4] 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.

If you wish like to visit us, please contact us via e-mail: neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.


Pas encore d'image

Ultracompact lab-on-a-chip reader with USB and TRS.

Ultracompact lab-on-a-chip reader with USB and TRS.

Group-Biophysical Equipment Group 54c3e61189ff8954128c52e616537ed4.jpg



  • [5] 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.

If you wish like to visit us, please contact us via e-mail: neurobiophys[at]gmail.com or o.v.gradov[at]gmail.com.



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