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Проскурнин Михаил Алексеевич

Proskurnin Mikhail Alekseevich

the University of your primary employment:

Lomonosov Moscow State University

Country

Russia

City

Moscow

Name of the Chair/Lab

Division of Analytical Chemistry

Research area

thermooptical spectroscopy, IR-spectroscopy, photothermal spectroscopy, optoacoustic spectroscopy, spectrophotometry, laser spectroscopy

Academic Degrees and Titles

Doctor of Sciences, Associate Professor

Academic Position

Professor

Area of Expertise

thermooptical spectroscopy, IR-spectroscopy, photothermal spectroscopy, optoacoustic spectroscopy, spectrophotometry, laser spectroscopy

Major Scientific Advances

From 1986, M. A. Proskurnin is engaged in theoretical and experimental development of new methods of thermooptical spectroscopy and their use in analytical chemistry and in combination with modern methods of flow and chromatographic analysis (the total of more than 300 publications).This created the basis for further improvement of these methods and their use in fundamental and applied analytical research.

Research Projects and Contracts.

National Science Foundation (NSF) grant DBI-0852737 (исполнитель) 14.05.2009-27.04.2012 IDBR: In vivo multifunctional photothermal cytometry

RFBR 16-03-01089 2016–2018  “Development of methodology of combined optical and thermal spectroscopy of disperse and polymer-modified media and nanomaterials on the basis of photothermal phenomena”. role: PI

RFBR 16-53-50027-YaF_а 2016–2017 Microfluidic liquid-liquid preconcentration with optical detection”. role: PI

RSF 14-23-00012 (investigator) Development of fundamental bases of analytical chemistry: the search and the study of new dependences between composition of substances and their physical characteristics for the creation and the improvement of chemical analysis techniques

BI-RU/14-15-017 2014 (co-PI) 01.01.14-31.12.15 New modes of detection in capillary research and microfluidic systems. Slovene-Russian project of bilateral collaboration

State Contract 16.740.11.0471 Ministry of Education and Science of the Russian Federation 13.05.2011-19.11.2013 (PI) The development of high-sensitivity optical power-based methods for the determination of organic substances in the environment, biomedical samples and materials

RFBR 13-03-00535 01.01.2013-31.12.2015 (PI) Power-based molecular-spectroscopy methods for direct determination of high concentrations

RFBR 10-03-01018-а 01.01.2010-31.12.2012 (PI) Thermooptical microspectroscopy of disperse media in visible and IR ranges for the analysis and investigation of biological and nanoscale materials

RFBR 09-03-92102-YaF_а 01.01.2009-31.12.2010 (PI) Integrated analytical systems for analytical and bioanalytical applications on microchips using optical and photothermal spectroscopy

RFBR 07-03-00859-а 01.01.2007-31.12.2009 (PI) Thermooptical investigations of chemical interaction at the interface_s of condensed phases at the subnanogram level and their use in analytical chemistry

National Science Foundation (NSF) grant DBI-0852737 (investigator) 14.05.2009-27.04.2012 IDBR: In vivo multifunctional photothermal cytometry

Referee, Reviewer.

  • Analytica Chimica Acta (Elsevier)
  • Applied Optics (Optical Society of America)
  • Applied Spectroscopy (Society for Applied Spectroscopy of America)
  • Colloids and Surface_s A: Physicochemical and Engineering Aspects (Elsevier)
  • Fuel (Elsevier)
  • Journal of Analytical Chemistry (Russ.) (Springer/MAIK Nauka – Interperiodica)
  • Journal of Applied Physics (American Institute of Physics)
  • Journal of Breath Research (IOP Publishing)
  • Journal of Chromatography A (Elsevier)
  • Journal of Optics [former Journal of Optics A: Pure and Applied Optics] (IOP Publishing)
  • Journal of Micromechanics and Microengineering (IOP Publishing)
  • Journal of Non-Crystalline Solids (Elsevier)
  • Journal of Physical Chemistry (American Chemical Society)
  • Journal of Physics: Condensed Matter (IOP Publishing)
  • Journal of Physics B: Atomic, Molecular & Optical Physics (IOP Publishing)
  • Journal of Physics D: Applied Physics (IOP Publishing)
  • Journal of the Optical Society of America B (Optical Society of America)
  • Measurement Science and Technology (IOP Publishing)
  • Optics Express (Optical Society of America)
  • Optics Letters (Optical Society of America)
  • Physica Scripta (IOP Publishing)
  • Physical Chemistry Chemical Physics (Royal Chemical Society)
  • Reviews of Scientific Instruments (American Institute of Physics)
  • Spectrochimica Acta B (Elsevier)
  • Spectroscopy Letters (Taylor & Francis)
  • Talanta (Elsevier)
  • The Analyst (Royal Chemical Society)

Scientific Recognition

European Association for Chemical and Molecular Sciences (EuCheMS)

The International Photoacoustic and Photothermal Association

Society for Applied Spectroscopy

Materials Research Society

Bureau of the Scientific Council on Analytical Chemistry of the Russian Academy of Sciences

European Association for Chemical and Molecular Sciences (EuCheMS)

The International Photoacoustic and Photothermal Association

Society for Applied Spectroscopy

Materials Research Society

Editorial board of "Journal of Analytical Chemistry" (Russia, MAIK Nauka-Interperiodika)

Publications

1. M.A. Proskurnin. Photothermal Spectroscopy, Chapter 11 in "Laser spectroscopy for sensing: Fundamentals, techniques and applications" Ed. M. Baudelet, Electronic and Optical Materials Vol. 43. Cambridge: Woodhead, 2014, 592 p. ISBN 0-85709-273-1 http://www.woodheadpublishing.com/en/book.aspx?bookID=2503

2. Mikroflyuidnye sistemy dlya khimicheskogo analiza (Microfludic systems for chemical analysis). Eds. Yu.A. Zolotov and V.E. Kurochkin./ M. FIZMATLIT 2011 528 pp. ISBN 978-5-9221-1315-1

3. О.Tomchuk, D.Volkov, L.Bulavin, A.Rogachev, M.Proskurnin, M.Korobov, M. Avdeev Structural characteristics of aqueous dispersions of detonation nanodiamond and their aggregate fractions as revealed by small-angle neutron scattering // J. Phys. Chem. C, 2015, 119 (1), pp 794–802 DOI: 10.1021/jp510151b (2014 JCR Science Edition Impact factor = 4.772)

4.         D.S. Volkov, M.A. Proskurnin, M.V. Korobov Survey Study of Mercury Determination in Detonation Nanodiamonds by Pyrolysis Flameless Atomic Absorption Spectroscopy // Diamond and Related Materials 2014. V 50 P. 60-65 DOI: 10.1016/j.diamond.2014.08.013 (2014 JCR Science Edition Impact factor = 1.919)

5. D.S. Volkov, M.A. Proskurnin, M.V. Korobov Elemental analysis of nanodiamonds by inductively-coupled plasma atomic emission spectroscopy // Carbon 2014 v. 74 P. 1–13. DOI: 10.1016/j.carbon.2014.02.072 (2014 JCR Science Edition Impact factor = 6.196)

6. D.A. Nedosekin, N.V. Saranchina, A.V. Sukhanov, N.A. Gavrilenko, M.A. Proskurnin, I.V. Mikheev. Solid-Phase-Enhanced Photothermal Lensing with Mesoporous Polymethacrylate Matrices for Optical-Sensing Chemical Analysis // Appl. Spectrosc. 2013 V. 67 N. 7 P. 709-717. DOI: 10.1366/12-06812. PMID: 23816121 (2013 JCR Science Edition Impact factor = 2.014)

7. M.V. Korobov, D.S. Volkov, N.V. Avramenko, L.A. Belyaeva, P.I. Semenyuk, M.A. Proskurnin Improving the dispersity of detonation nanodiamond: differential scanning calorimetry as a new method of controlling the aggregation state of nanodiamond powders. Nanoscale, 2013. V. 5, N. 4. P. 1529-1536. DOI: 10.1039/C2NR33512C PMID: 23314800 (2014 JCR Science Edition Impact factor = 7.394)

8. A. Smirnova, M.A. Proskurnin, K. Mawatari, T. Kitamori Desktop near-field thermal lens microscope for thermo-optical detection in microfluidics // Electrophoresis. 2012 V. 33. P. 2748-2751 DOI: 10.1002/elps.201200065 PMID: 22965721 (2014 JCR Science Edition Impact factor = 3.028)

9. M.A. Proskurnin, T.V. Zhidkova, D.S. Volkov, M. Sarimollaoglu, E.I. Galanzha, D. Mock, D.A. Nedosekin, V.P. Zharov In vivo multispectral photoacoustic and photothermal flow cytometry with multicolor dyes: A potential for real-time assessment of circulation, dye-cell interaction, and blood volume // Cytometry A. 2011, V. 79A, N. 10, P. 834–847. DOI: 10.1002/cyto.a.21127 PMID: 21905207 PMCID: PMC3350104 (2014 JCR Science Edition Impact factor = 2.928)

10. A.V. Brusnichkin, D.A. Nedosekin, E.I. Galanzha, Yu.A. Vladimirov, E.F. Shevtsova, M.A. Proskurnin, and V.P. Zharov Ultrasensitive label-free photothermal imaging, spectral identification, and quantification of cytochrome c in mitochondria, live cells, and solutions. J. Biophoton. 2010, 12, 1–16 DOI 10.1002/jbio.201000012 PMID: 20572284, PMCID: PMC3350104 (2014 JCR Science Edition Impact factor = 4.447)

Patents, Intellectual Property

1.        I.V. Mikheev, M.V. Korobov, D.S. Volkov, M.A. Proskurnin. Method of producing concentrated aqueous dispersions of non-modified fullerenes. Patent of the Russian Federation RU 2570083, 2014–2034. Priority Date 14.03.2014 (Date of Issue 10.12.2015)

2.        M.A. Proskurnin, E.V. Loginova, I.V. Mikheev, D.S. Volkov, O.A. Shpigun. Method for infrared spectroscopic determination of composition of acrylic acid copolymers. Patent of the Russian Federation RU 2557895, 2014–2034. Priority Date 28.02.2014 (Date of Issue 27.07.2015)

3.        P.A. Gorkin, B.K. Zuev, A.N. Semenchikova, M.A. Proskurnin, A.A. Letunov, V.I. Pogonin. A device for thermal-lens spectroscopy: Patent of the Russian Federation RU 2463568, 2011–2021 Priority Date11.05.2011 (Date of Issue 10.12.2012)

4.        P.A. Gorkin, V.I. Pogonin, B. K. Zuev, A. N. Semenchikova, M. A. Proskurnin. Cell for thermal-lens spectrometry: Patent of the Russian Federation RU 2456581, 2011–2021. Priority Date 29.12.2010 (Date of Issue 20.07.2012)

5.        B K. Zuev, M.A. Proskurnin. A device for thermal-lens spectrometry. Patent of the Russian Federation RU 00079339 U1, 2009–2019. Priority Date 04.02.2008 (Date of Issue 01.02.2009)

6.        M.A. Proskurnin, A.V. Pikhtar’, N.V. Orlova, M.V. Fedyaev. The method for determining n-aminophenol in organic synthesis, medicinal substances substances and preparations on their basis. Patent of the Russian Federation RU 2217731, 2002–2004. Priority Date 26.03.2002 (Date of Issue 27.11.2003)

 

You work in NUST MISiS

The development of the of complex chemical characterization of substances and functional materials based on the use of instrumental methods of thermooptical spectroscopy as a group of highly sensitive non-destructive methods of molecular thermal spectroscopy in conjunction with other methods of atomic and molecular spectroscopy.




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