Frank
Laboratory
of Neutron Physics

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Raman spectroscopy

High contrast CARS microscopy – imaging of membrane proteins with high spatial resolution  Read more>>
G. M. Arzumanyan, K. Z. Mamatkulov

Biosensing: ultrasensitive detection of organic molecules Read more>>

M. Arzumanyan, A. V. Bondarenko (BSUIR, Minsk, Belarus)

Z. Mamatkulov, E. Arynbek, D. S. Zakrytnaya, E. M. Demina, A. A. Shutikov, I. M. Pugachevskaya


Spectral biomarker of NETosis Read more>>

M. Arzumanyan, K. Z. Mamatkulov
D. S. Zakrytnaya, E. Arynbek, E. M. Demina, A. A. Shutikov

Study of the anomaly in the ratio of the intensity of the anti-Stokes and Stokes components in SERS spectra.

M. Arzumanyan, K. Z. Mamatkulov, D. N. Kozlov (IOF RAS)

Arynbek, A. V. Bondarenko, I. A. Morkovnikov

Anti-Stokes and Stokes GRS spectra of TNB molecules at excitation intensities of 25, 51 and 105 μW/μm2; the gap in the centre of the spectra is determined by transmission of the notch filter

Employees of the sector of Raman spectroscopy

Publications

  1. Г.М. Арзуманян, «Мультимодальная оптическая платформа для исследования конденсированных сред». Сообщение ОИЯИ, Дубна, 2013, Р13-2013-47.
  2. G.M. Arzumanyan, N.V. Doroshkevich, K.Z. Mamatkulov, S.N. Shashkov, E.V. Zinovev, A.V. Vlasov, E.S. Round, V.I.Gordeliy, “Highly Sensitive Coherent Anti-Stokes Raman Scattering Imaging of Protein Crystals”, JACS, 2016, 138, 13457−13460.
  3. G.M. Arzumanyan, E.A. Kuznetsov, A.A. Zhilin, O.S. Dymshits, D.V. Shemchuk, I.P. Alekseeva, A.V. Mudryi, V.D. Zhivulko, O.M. Borodavchenko, “Photoluminescence of transparent glass-ceramics based on ZnO nanocrystals and co-doped with Eu3+, Yb3+ ions”, Optical materials, 2016, 62, 666-672.
  4. G. Arzumanyan, E. Kuznetsov, A. Sarakovskis, G. Krieke, “Near-Infrared-to-Blue Up-conversion Luminescence in Transparent Eu3+/Yb3+ Doped Oxyfluoride Phosphors”, J. of Mat. Sc. and Eng., 2017, B 7 (3-4), 71-76.
  5. G. Arzumanyan, N. Doroshkevich, K. Mamatkulov, S. Shashkov, K. Girel, H. Bandarenka, and Victor Borisenko, “Phospholipid detection by surface-enhanced Raman scattering using silvered porous silicon substrates”, Phys. Status Solidi A 214, No. 8, 1600915, 2017.
  6. V.I. Fabelinsky, D.N. Kozlov, S.N. Orlov, Y.N. Polivanov, I.A. Shcherbakov, V.V. Smirnov, K.A. Vereschagin, K.Z. Mamatkulov, G.M. Arzumanyan, et al., “Surface-enhanced micro-CARS mapping of a nanostructured cerium dioxide/aluminum film surface with gold nanoparticle-bound organic molecules”, J. Raman. Spectr., 2018, 49, 7(2), 1145-1154.
  7. G.M. Arzumanyan G.M., K.Z. Mamatkulov, D.N. Kozlov, et al., “Laser intensity limits in surface‐enhanced linear and nonlinear Raman micro‐spectroscopy of organic molecule/Au‐nanoparticle conjugates”, J. Raman Spectrosc. 2019, 50, 1311–1320.
  8. G.M. Arzumanyan, D.S. Linnik, K.Z. Mamatkulov, M.Yu. Vorobeva, et al., “Synthesis of NaYF4: Yb, Er@SiO2@Ag core-shell nanoparticles for plasmon-enhanced upconversion luminescence in bio-applications”, Annals of Biomedical Sc. & Eng., 2019, 3, 013-019,
  9. S. Zavatski, N. Khinevich, G. Arzumanyan, H. Bandarenka et al., “Surface Enhanced Raman Spectroscopy of Lactoferrin Adsorbed on Silvered Porous Silicon Covered with Graphene”, Biosensors, 2019, 9, 34, 1-19.
  10. D.V. Yakimchuk, E.Yu. Kaniukov, G.M. Arzumanyan, et al., "Self-organized spatially separated silver 3D dendrites as efficient plasmonic nanostructures for Surface-enhanced Raman spectroscopy applications", J. Appl. Phys, 2019, 126.
  11. G.M. Arzumanyan, A.S. Gur’ev, D.E. Kravtsunova, K.Z. Mamatkulov, K.A. Vereshchagin, A.Yu. Volkov, “Micro Raman spectroscopy for NETosis detection”, J. Raman Spect., 2020, 51, 1960–1969.
  12. D.V. Yakimchuk, V.D. Bundyukiva, Jon Ustarroz, G.M. Arzumanyan, K.Z. Mamatkulov, et al., “Morphology and Microstructure Evolution of Gold Nanostructures in the Limited Volume Porous Matrices”, SENSORS, 2020, 20, 4397.
  13. H.V. Bandarenka, N.V. Khinevich, A.A. Burko, S.V. Redko, S.A. Zavatski, U.A. Shape, K.Z. Mamatkulov, M.Yu. Vorobyeva, G.M. Arzumanyan, "3D silver dendrites for single-molecule imaging by surface-enhanced Raman spectroscopy", ChemNanoMat, 2020, 7(2), 141-149.
  14. G.M. Arzumanyan, K.Z. Mamatkulov, M.Yu. Vorobyeva, S.N. Orlov, Yu.N. Polivanov, H.V. Bandarenko, et al., “Plasmon resonance, thermal, and optical contributions to anti-Stokes-to-Stokes line strength ratios in continuous wave-excited surface-enhanced Raman scattering spectra of molecules at random Ag surface”, J. Raman Spect., 2021, 52, 1515–1528.
  15. Mihaela Baibarac, Grigory Arzumanyan, Monica Daescu, Adelina Udrescu and Kahramon Mamatkulov, “Anisotropic Photoluminescence of Poly(3-hexyl thiophene) and Their Composites with Single-Walled Carbon Nanotubes Highly Separated in Metallic and Semiconducting Tubes”, Molecules, 2021, 26, 294.
  16. Tomáš Kondela, Ermuhammad Dushanov, Maria Vorobyeva, Kahramon Mamatkulov, Elizabeth Drolle, Dmytro Soloviov, Pavol Hrubovˇc´ak, Kholmirzo Kholmurodov, Grigory Arzumanyan, Zoya Leonenko, Norbert Kučerka, “Investigating the competitive effects of cholesterol and melatonin in model lipid membranes”, BBA, 2021, Biomembranes 1863, 9.
  17. Siarhei Zavatski, Hanna Bandarenka, Łukasz Hetmańczyk, Joanna Hetmańczyk, Maria Vorobyeva, Yersultan Arynbek, Kahramon Mamatkulov, Grigory Arzumanyan, “Model phospholipid interaction with cholesterol and melatonin: Raman spectroscopy and density functional theory study”, J Raman Spectr. 2022; 1–11.
  18. Anka Jevremovic, Ana Stanojkovic, Dragana Arsenijevic, Aleksandar Arsenijevi, Grigory Arzumanyan, Kahramon Mamatkulov, et al., “Mitigating toxicity of acetamiprid removal techniques – Fe modified zeolites in focus” Journal of Hazardous Materials, 2022, 436.
  19. Grigory Arzumanyan, Kahramon Mamatkulov, Yersultan Arynbek, Darya Zakrytnaya, Anka Jevremović and Nina Vorobjeva, “Radiation from UV-A to Red Light Induces ROS-Dependent Release of Neutrophil Extracellular Traps”, IJMS, 2023, 24, 5770.