Cytometry and Biokinetics Laboratory

List of peer-reviewed journal papers and book chapters
(publications in Russian are listed separately)

Journal impact factors are given based on ISI "Journal Citation Reports" (JCR) published during the corresponding year (labeled by the previous year), or the closest available one.

Light Scattering

2021

  1. Ekaterina S. Yastrebova, Alena L. Litvinenko, Dmitry I. Strokotov, Roman S. Vladimirov, Konstantin V Gilev, Vyacheslav M. Nekrasov, Andrey A Karpenko, Valeri P Maltsev
    Dual-wavelength angle-resolved light scattering in analysis of particles by scanning flow cytometry
    Journal of Optics 23, 105606 (2021) DOI: 10.1088/2040-8986/ac1b7b     Impact Factor - 2.516 Q2 (JCR 2020)
  2. Alena L. Litvinenko, Vyacheslav M. Nekrasov, Dmitry I. Strokotov, Alexander E. Moskalensky, Andrey V. Chernyshev, Anna N. Shilova, Andrey A. Karpenko, Valeri P. Maltsev
    Blood platelet quantification by light scattering: from morphology to activation
    Analytical Methods 13, 3233-3241 (2021) DOI: 10.1039/D1AY00431J     Impact Factor - 2.896 Q2 (JCR 2020)
  3. Ekaterina S. Yastrebova, Ivan Dolgikh, Konstantin V. Gilev, Irina V. Vakhrusheva, Elizaveta Liz, Alena L. Litvinenko, Vyacheslav M. Nekrasov, Dmitry I. Strokotov, Andrei A. Karpenko, Valeri P. Maltsev
    Spectral approach to recognize spherical particles among non-spherical ones by angle-resolved light scattering
    Optics and Laser Technology 135, 106700 (2021) DOI: 10.1016/j.optlastec.2020.106700     Impact Factor - 3.233 Q1 (JCR 2019)

2019

  1. Anastasiya I. Konokhova, Ekaterina S. Yastrebova, Dmitry I. Strokotov, Andrei V. Chernyshev, Andrei A. Karpenko, Valeri P. Maltsev
    Ultimate peculiarity in angular spectrum enhances the parametric solution of the inverse Mie problem
    Journal of Quantitative Spectroscopy and Radiative Transfer. 235 , 204–208 (2019) DOI: 10.1016/j.jqsrt.2019.06.034     Impact Factor - 2.955 Q1 (JCR 2018)
  2. Andrey V. Romanov, Anastasiya I. Konokhova, Ekaterina S. Yastrebova, Konstantin V. Gilev, Dmitry I. Strokotov, Valeri P. Maltsev, Maxim A. Yurkin
    Sensitive detection and estimation of particle non-sphericity from the complex Fourier spectrum of its light-scattering profile
    Journal of Quantitative Spectroscopy and Radiative Transfer. 235 , 317-331 (2019) DOI: 10.1016/j.jqsrt.2019.07.001     Impact Factor - 2.955 Q1 (JCR 2018)

2018

  1. Darya N. Chernova, Anastasiya I. Konokhova, Olga A. Novikova, Maxim A. Yurkin, Dmitry I. Strokotov, Andrei A. Karpenko, Andrei V. Chernyshev, Valeri P. Maltsev
    Chylomicrons against light scattering: the battle for characterization
    Journal of Biophotonics 11 , e201700381 (2018) DOI: 10.1002/jbio.201700381     Impact Factor - 4.33 Q1 (JCR 2016)

2017

  1. Andrey V. Romanov, Anastasiya I. Konokhova, Ekaterina S. Yastrebova, Konstantin V. Gilev, Dmitry I. Strokotov, Andrei V. Chernyshev, Valeri P. Maltsev, Maxim A. Yurkin
    Spectral solution of the inverse Mie problem
    Journal of Quantitative Spectroscopy and Radiative Transfer 200, 280-294 (2017) DOI: 10.1016/j.jqsrt.2017.04.034    Impact Factor - 2.4 Q2 (JCR 2016)
  2. K.V. Gilev, E.S. Yastrebova, D.I. Strokotov, M.A. Yurkin, N.A. Karmadonova, A.V. Chernyshev, V.V. Lomivorotov and V.P. Maltsev
    Advanced consumable-free morphological analysis of intact red blood cells by a compact scanning flow cytometer
    Cytometry A 91, 867-873 (2017) DOI: 10.1002/cyto.a.23141    Impact Factor - 3.222 Q2 (JCR 2016)

2016

  1. Anastasiya I. Konokhova ; Darya N. Chernova ; Dmitry I. Strokotov ; Andrei A. Karpenko ; Andrei V. Chernyshev ; Valeri P. Maltsev ; Maxim A. Yurkin
    Light-scattering gating and characterization of plasma microparticles
    J. Biomed. Opt. 21(11), 115003 (Nov 17, 2016). DOI: 10.1117/1.JBO.21.11.115003    Impact Factor - 2.530 Q2 (JCR 2016)
  2. A.L. Litvinenko, A.E. Moskalensky, N.A. Karmadonova, V.M. Nekrasov, D.I. Strokotov, A.I. Konokhova, M.A. Yurkin, E.A. Pokushalov, A.V. Chernyshev, V.P. Maltsev
    Fluorescence-free flow cytometry for measurement of shape index distribution of resting, partially activated, and fully activated platelets
    Cytometry A 89, 1010–1016 (2016) DOI: 10.1002/cyto.a.23003    Impact Factor - 3.222 Q2 (JCR 2016)
  3. Mishchenko M.I., Dlugach J.M., Yurkin M.A., Bi L., Cairns B., Liu L., Panetta R.L., Travis L.D., Yang P., and Zakharova N.T.
    First-principles modeling of electromagnetic scattering by discrete and discretely heterogeneous random media
    Phys. Rep. 632, 1–75 (2016)    Impact Factor - 20.033 (JCR 2014)
  4. Gilev K.V., Yurkin M.A., Chernyshova E.S., Strokotov D.I., Chernyshev A.V., and Maltsev V.P.
    Mature red blood cells: from optical model to inverse light-scattering problem
    Biomed. Opt. Express 7, 1305–1310 (2016)    Impact Factor - 3.337 Q1 (JCR 2016)
  5. Konokhova A.I., Chernova D.N., Moskalensky A.E., Strokotov D.I., Yurkin M.A., Chernyshev A.V., and Maltsev V.P.
    Super-resolved calibration-free flow cytometric characterization of platelets and cell-derived microparticles in platelet-rich plasma
    Cytometry A 89, 159–168 (2016)    Impact Factor - 3.222 Q2 (JCR 2016)

2015

  1. Yurkin M.A. and Huntemann M.
    Rigorous and fast discrete dipole approximation for particles near a plane interface
    J. Phys. Chem. C, 119, 29088–29094 (2015)    Impact Factor - 4.772 (JCR 2014)
  2. Kim K.-H. and Yurkin M.A.
    Time-domain discrete-dipole approximation for simulation of temporal response of plasmonic nanoparticles
    Opt. Express 23, 15555–15564 (2015)    Impact Factor - 3.488 (JCR 2014)
  3. Smunev D.A., Chaumet P.C., and Yurkin M.A.
    Rectangular dipoles in the discrete dipole approximation
    J. Quant. Spectrosc. Radiat. Transfer 156, 67–79 (2015), Erratum: 171, 84 (2016)    Impact Factor - 2.645 (JCR 2014)

2014

  1. Yurkin M.A.
    Comment on “Rapid and efficient prediction of optical extinction coefficients for gold nanospheres and gold nanorods”
    J. Phys. Chem. C 118, 21738–21739 (2014)    Impact Factor - 4.835 (JCR 2013)
  2. Konokhova A.I., Rodionov A.A., Gilev K.V., Mikhaelis I.M., Strokotov D.I., Moskalensky A.E., Yurkin M.A., Chernyshev A.V., and Maltsev V.P.
    Enhanced characterization of milk fat globules by their size, shape and refractive index with scanning flow cytometry
    Int. Dairy J. 39, 316–323 (2014)    Impact Factor - 2.067 Q2 (JCR 2016)
  3. Moskalensky A.E., Strokotov D.I., Chernyshev A.V., Maltsev V.P., and Yurkin M.A.
    Additivity of light-scattering patterns of aggregated biological particles
    J. Biomed. Opt. 19, 085004 (2014)    Impact Factor - 2.752 (JCR 2013)
  4. Zhukas L.A., Veber S.L., Mikenas T.B., Yurkin M.A., Karpova E.V., Maltsev V.P., Mamatyuk V.I., Echevskaya L.G., Bagryanskaya E.G., and Zakharov V.A.
    Size-dependent optical properties of polyethylene powders in far-IR region: On the way to universal matrix
    J. Quant. Spectrosc. Radiat. Transfer 147, 1–7 (2014)    Impact Factor - 2.419 Q2 (JCR 2016)
  5. Podowitz D.I., Liu C., Yang P., and Yurkin M.A.
    Comparison of the pseudo-spectral time domain method and the discrete dipole approximation for light scattering by ice spheres
    J. Quant. Spectrosc. Radiat. Transfer 146, 402–409 (2014)    Impact Factor - 2.228 Q1 (JCR 2013)
  6. Yurkin M.A.
    Comment on “Plasmonic nanoparticle monomers and dimers: from nanoantennas to chiral metamaterials” by Chigrin et al. in Appl Phys B (2011) 105:81–97
    Appl. Phys. B 114, 601–602 (2014)    Impact Factor - 1.634 (JCR 2013)

2013

  1. Maltsev V.P., Chernyshev A.V., and Strokotov D.I.
    Light-scattering flow cytometry: Advanced characterization of individual particle morphology
    in Flow Cytometry: Principles, Methodology and Applications, ed. Papandreou S., Nova Science Publishers, New York, pp. 79–103 (2013)
  2. Yurkin M.A.
    Computational approaches for plasmonics
    in Handbook of Molecular Plasmonics, eds. Della Sala F., D’Agostino S., Pan Stanford Publishing, Singapore, pp. 83–135 (2013),    Erratum
  3. Konokhova A.I., Gelash A.A., Yurkin M.A., Chernyshev A.V., and Maltsev V.P.
    High-precision characterization of individual E. coli cell morphology by scanning flow cytometry
    Cytometry A 83A, 568–575 (2013)    Impact Factor - 3.711 (JCR 2012)
  4. Moskalensky A.E., Yurkin M.A., Konokhova A.I., Strokotov D.I., Nekrasov V.M., Chernyshev A.V., Tsvetovskaya G.A., Chikova E.D., and Maltsev V.P.
    Accurate measurement of volume and shape of resting and activated blood platelets from light scattering
    J. Biomed. Opt. 18, 017001 (2013)    Impact Factor - 2.881 (JCR 2012)
  5. Gilev K.V., Yurkin M.A., Dyatlov G.V., Chernyshev A.V., and Maltsev V.P.
    An optimization method for solving the inverse Mie problem based on adaptive algorithm for construction of interpolating database
    J. Quant. Spectrosc. Radiat. Transfer 131, 202–214 (2013)    Impact Factor - 2.38 (JCR 2012)
  6. Yurkin M.A. and Kahnert M.
    Light scattering by a cube: accuracy limits of the discrete dipole approximation and the T-matrix method
    J. Quant. Spectrosc. Radiat. Transfer 123, 176–183 (2013)    Impact Factor - 2.38 (JCR 2012)
  7. Yurkin M.A.
    Symmetry relations for the Mueller scattering matrix integrated over the azimuthal angle
    J. Quant. Spectrosc. Radiat. Transfer 131, 82–87 (2013)    Impact Factor - 2.38 (JCR 2012)

2012

  1. Konohova A.I., Yurkin M.A., Moskalensky A.E., Chernyshev A.V., Tsvetovskaya G.A., Chikova E.D., and Maltsev V.P.
    Light-scattering flow cytometry for identification and characterization of blood microparticles
    J. Biomed. Opt. 17, 057006 (2012)    Impact Factor - 3.157 (JCR 2011)
  2. Dyatlov G.V., Gilev K.V., Yurkin M.A., and Maltsev V.P.
    An optimization method with precomputed starting points for solving the inverse Mie problem
    Inv. Probl. 28, 045012 (2012)   Impact Factor - 1.88 (JCR 2011)
  3. Liu C., Bi L., Panetta R.L., Yang P., and Yurkin M.A.
    Comparison between the pseudo-spectral time domain method and the discrete dipole approximation for light scattering simulations
    Opt. Express 20, 16763–16776 (2012)   Impact Factor - 3.587 (JCR 2011)
  4. Schmidt K., Yurkin M.A., and Kahnert M.
    A case study on the reciprocity in light scattering computations
    Opt. Express 20, 23253–23274 (2012)   Impact Factor - 3.587 (JCR 2011)

2011

  1. Maltsev V.P., Hoekstra A.G., and Yurkin M.A.
    Optics of white blood cells: optical models, simulations, and experiments
    in Advanced Optical Flow Cytometry: Methods and Disease Diagnoses, ed. Tuchin V.V., Wiley-VCH, Weinheim, pp.63–93 (2011)
  2. Strokotov D.I., Moskalensky A.E., Nekrasov V.M., and Maltsev V.P.
    Polarized light-scattering profile - advanced characterization of nonspherical particles with the scanning flow cytometry
    Cytometry A 79A, 570–579 (2011)    Impact Factor - 3.753 (JCR 2010)
  3. Yurkin M.A. and Hoekstra A.G.
    The discrete-dipole-approximation code ADDA: capabilities and known limitations
    J. Quant. Spectrosc. Radiat. Transfer 112, 2234–2247 (2011)    Impact Factor - 2.331 (JCR 2010)

2010

  1. Yurkin M.A., Min M., and Hoekstra A.G.
    Application of the discrete dipole approximation to very large refractive indices: Filtered coupled dipoles revived.
    Phys. Rev. E 82, 036703 (2010).   Impact Factor - 2.4 (JCR 2009)
  2. Gilev K.V., Eremina E., Yurkin M.A., and Maltsev V.P.
    Comparison of the discrete dipole approximation and the discrete source method for simulation of light scattering by red blood cells
    Opt. Express 18, 5681–5690 (2010)   Impact Factor - 3.278 (JCR 2009)
  3. Yurkin M.A., de Kanter D., and Hoekstra A.G.
    Accuracy of the discrete dipole approximation for simulation of optical properties of gold nanoparticles.
    J. Nanophoton. 4, 041585 (2010).   Impact Factor - 1.256 (JCR 2009)

2009

  1. Strokotov D.I., Yurkin M.A., Gilev K.V., van Bockstaele D.R., Hoekstra A.G., Rubtsov N.B., and Maltsev V.P.
    Is there a difference between T- and B-lymphocyte morphology?
    J. Biomed. Opt. 14, 064036 (2009)    Impact Factor - 2.97 (JCR 2008)

2008

  1. Dyatlov G.V., Gilev K.V., Semyanov K.A., and Maltsev V.P.
    The scanning flow cytometer modified for measurement of two-dimensional light-scattering pattern of individual particles
    Meas. Sci. Technol. 19 015408 (2008)   Impact Factor - 1.297 (JCR 2007)
  2. Fiorani L., Maltsev V.P., Nekrasov V.M., Palucci A., Semyanov K.A., and Spizzichino V.
    Scanning flow cytometer modified to distinguish phytoplankton cells from their effective size, effective refractive index, depolarization, and fluorescence
    Appl. Opt. 47, 4405–4412 (2008)    Impact Factor - 1.701 (JCR 2007)
  3. Orlova D.Y., Yurkin M.A., Hoekstra A.G., and Maltsev V.P.
    Light scattering by neutrophils: model, simulation, and experiment
    J. Biomed. Opt. 13, 054057 (2008)   Impact Factor - 3.084 (JCR 2007)

2007

  1. Tarasov P.A., Yurkin M.A., Avrorov P.A., Semyanov K.A., Hoekstra A.G., and Maltsev V.P.
    Optics of erythrocytes
    in Optics of Biological Particles, ed. Hoekstra A.G., Maltsev V.P., Videen G., Springer, Dordrecht, pp. 231–246 (2007)
  2. Semyanov K.A., Zharinov A.E., Tarasov P.A., Yurkin M.A., Skribunov I.G., van Bockstaele D.R., and Maltsev V.P.
    Optics of leucocytes
    in Optics of Biological Particles, ed. Hoekstra A.G., Maltsev V.P., Videen G., Springer, Dordrecht, pp. 253–264 (2007)
  3. Kolesnikova I.V., Potapov S.V., Tarasov P.A., Semyanov K.A., and Maltsev V.P.
    Optics of platelets
    in Optics of Biological Particles, ed. Hoekstra A.G., Maltsev V.P., Videen G., Springer, Dordrecht, pp. 247–252 (2007)
  4. Yurkin M.A., Semyanov K.A., Maltsev V.P., and Hoekstra A.G.
    Discrimination of granulocyte subtypes from light scattering: theoretical analysis using a granulated sphere model
    Opt. Express 15, 16561–16580 (2007)   Impact Factor - 4.009 (JCR 2006)
  5. Yurkin M.A. and Hoekstra A.G.
    The discrete dipole approximation: an overview and recent developments
    J. Quant. Spectr. Radiat. Transf. 106, 558–589 (2007), Erratum: 171, 82–83 (2016)   Impact Factor - 1.599 (JCR 2006)
  6. Yurkin M.A., Maltsev V.P., and Hoekstra A.G.
    The discrete dipole approximation for simulation of light scattering by particles much larger than the wavelength
    J. Quant. Spectr. Radiat. Transf. 106, 546–557 (2007)    Impact Factor - 1.599 (JCR 2006)
  7. Penttila A., Zubko E., Lumme K., Muinonen K., Yurkin M.A., Draine B.T., Rahola J., Hoekstra A.G., and Shkuratov Y.
    Comparison between discrete dipole implementations and exact techniques
    J. Quant. Spectr. Radiat. Transf. 106, 417–436 (2007)    Impact Factor - 1.599 (JCR 2006)
  8. Yurkin M.A., Hoekstra A.G., Brock R.S., and Lu J.Q.
    Systematic comparison of the discrete dipole approximation and the finite difference time domain method for large dielectric scatterers
    Opt. Express 15, 17902–17911 (2007)    Impact Factor - 4.009 (JCR 2006)

2006

  1. Yurkin M.A., Maltsev V.P., and Hoekstra A.G.
    Convergence of the discrete dipole approximation. II. An extrapolation technique to increase the accuracy
    J. Opt. Soc. Am. A 23, 2592–2601 (2006)   Impact Factor - 1.764 (JCR 2005)
  2. Yurkin M.A., Maltsev V.P., and Hoekstra A.G.
    Convergence of the discrete dipole approximation. I. Theoretical analysis
    J. Opt. Soc. Am. A 23, 2578–2591 (2006), Erratum: 32, 2407–2408 (2015)   Impact Factor - 1.764 (JCR 2005)
  3. F. Barnaba, L. Fiorania, A. Palucci, P. Tarasov
    First characterization of marine particles by laser scanning flow cytometry
    J. Quant. Spectrosc. Radiat. Transfer 102, 11–17 (2006)   Impact Factor - 1.685 (JCR 2005)
  4. Kolesnikova I.V., Potapov S.V., Yurkin M.A., Hoekstra A.G., Maltsev V.P., and Semyanov K.A.
    Determination of volume, shape and refractive index of individual blood platelets
    J. Quant. Spectrosc. Radiat. Transfer 102, 37–45 (2006)   Impact Factor - 1.685 (JCR 2005)
  5. Berdnik V.V., Gilev K.V., Shvalov A.N., Maltsev V.P., and Loiko V.A.
    Characterization of spherical particles using high-order neural networks and scanning flow cytometry
    J. Quant. Spectrosc. Radiat. Transfer 102, 62–72 (2006)    Impact Factor - 1.685 (JCR 2005)
  6. Zharinov A., Tarasov P.A., Shvalov A.N., Semyanov K.A., van Bockstaele D.R., and Maltsev V.P.
    A study of light scattering of mononuclear blood cells with scanning flow cytometry
    J. Quant. Spectrosc. Radiat. Transfer 102, 121–128 (2006)    Impact Factor - 1.685 (JCR 2005)
  7. Min M., Hovenier J.W., Dominik A., de Koter A., and Yurkin M.A.
    Absorption and scattering properties of arbitrary shaped particles in the Rayleigh domain: A rapid computational method and a theoretical foundation for the statistical approach
    J. Quant. Spectrosc. Radiat. Transfer 97, 161–180 (2006)    Impact Factor - 1.685 (JCR 2005)

2005

  1. Yurkin M.A., Semyanov K.A., Tarasov P.A., Chernyshev A.V., Hoekstra A.G., and Maltsev V.P.
    Experimental and theoretical study of light scattering by individual mature red blood cells by use of scanning flow cytometry and a discrete dipole approximation
    Appl. Opt. 44, 5249–5256 (2005)    Impact Factor - 1.799 (JCR 2004)

2004

  1. Semyanov K.A., Tarasov P.A., Zharinov A.E., Chernyshev A.V., Hoekstra A.G., and Maltsev V.P.
    Single-particle sizing from light scattering by spectral decomposition
    Appl. Opt. 43 5110-5115 (2004)   Impact Factor - 1.534 (JCR 2003)

2003

2000

  1. Maltsev V.P.
    Scanning flow cytometry for individual particle analysis
    Rev. Sci. Instr. 71, 243–255 (2000)    Impact Factor - 1.293 (JCR 1999)
  2. Shvalov A.N., Soini J.T., Surovtsev I.V., Kochneva G.V., Sivolobova G.F., Petrov A.K., and Maltsev V.P.
    Individual Escherichia coli cells studied from light scattering with the scanning flow cytometer
    Cytometry 41, 41–45 (2000)   Impact Factor - 2.843 (JCR 1999)
  3. Sem'yanov K.A., Tarasov P.A., Soini J.T., Petrov A.K., and Maltsev V.P.
    Calibration free method to determine the size and hemoglobin concentration of individual red blood cells from light scattering
    Appl. Opt. 39, 5884–5889 (2000)   Impact Factor - 1.616 (JCR 1999)
  4. Sem'yanov K.A. and Maltsev V.P.
    Analysis of sub-micron spherical particles using scanning flow cytometry
    Part. Part. Syst. Charact. 17, 225–229 (2000)   Impact Factor - 0.642 (JCR 1999)

1999

  1. Shvalov A.N. , Soini J.T. , Chernyshev A.V. , Tarasov P.A. , Soini E., and Maltsev V.P.
    Light-scattering properties of individual erythrocytes
    Appl. Opt. 38, 230-235 (1999)    Impact Factor - 1.138 (JCR 1998)
  2. Shepelevich N.V., Lopatin V.V., Maltsev V.P., and Lopatin V.N.
    Extrema in the light-scattering indicatrix of a homogeneous sphere
    J. Opt. A 1, 448–453 (1999)   Impact Factor - 0.376 (JCR 2000)
  3. Shvalov A.N., Surovtsev I.V., Chernyshev A.V., Soini J.T., and Maltsev V.P.
    Particle classification from light scattering with the scanning flow cytometer
    Cytometry 37, 215–220 (1999)   Impact Factor - 2.317 (JCR 1998)

1998

  1. Soini J.T., Chernyshev A.V., Hanninen P.E., Soini E., and Maltsev V.P.
    A new design of the flow cuvette and optical set-up for the scanning flow cytometer
    Cytometry 31, 78–84 (1998)   Impact Factor - 2.15 (JCR 1997)

1997

  1. Maltsev V.P. and Lopatin V.N.
    Parametric solution of the inverse light-scattering problem for individual spherical particles
    Appl. Opt. 36, 6102–6108 (1997)   Impact Factor - 0.972 (JCR 1996)
  2. Maltsev V.P., Chernyshev A.V., Sem'yanov K.A., and Soini E.
    Absolute real-time determination of size and refractive index of individual microspheres
    Meas. Sci. Technol. 8, 1023–1027 (1997)   Impact Factor - 0.623 (JCR 1996)
  3. Maltsev V.P. and Chernyshev A.V.
    Method and device for determination of parameters of individual microparticles
    US Patent Number: 5,650,847. Date of patent: Jul. 22, 1997

1996

  1. Maltsev V.P., Chernyshev A.V. , Sem'yanov K.A., and Soini E.
    Absolute real-time measurement of particle size distribution with the flying light-scattering indicatrix method
    Appl. Opt. 35, 3275–3280 (1996)   Impact Factor - 1.067 (JCR 1995)

1995

  1. Maltsev V.P., Chernyshev A.V., Doroshkin A.A., and Soini E.
    Light scattering and fluorescence of single particles measured by a scanning flow cytometer
    SPIE Proc. 2386, 199–205 (1995)
  2. Chernyshev A.V. , Prots V.I., Doroshkin A.A., and Maltsev V.P.
    Measurement of scattering properties of individual particles with a scanning flow cytometer.
    Appl. Opt. 34, 6301–6305 (1995)   Impact Factor - 1.033 (JCR 1994)

1994

  1. Maltsev V.P.
    Estimation of morphological characteristics of single particles from light scattering data in flow cytometry
    Russ. Chem. Bull. 43, 1115–1124 (1994) (translated from Russian)   Impact Factor - 0.403 (JCR 1998)



Total

Scanning Flow Cytometer

Light scattering

Biokinetics

White Blood Cells

Red Blood Cells

Blood Platelets

Inverse light-scattering problem

Blood microparticles

Ligand receptor


Cytometry and Biokinetics Laboratory (C) 2004 - 2015