Публикации

 

Статистические данные:
публикации и патенты ЛНБИ 2012-2016 гг.

 


 

Научный труд

Опубликовано

Приняты в печать и будут опубликованы.

ВСЕГО

Высокорейтинговые статьи в рецензируемых международных журналах:

44

2

46

Другие статьи в рецензируемых журналах, цитируемых в базах данных Web-of-Science и/или Scopus:

72

10

82

Статьи в других журналах, входящих в список ВАК:

5

-

5

Монографии, учебники:

3

-

3

Патенты и другие объекты интеллектуальной собственности:

10

10

20

ВСЕГО НАУЧНЫХ ТРУДОВ 2012-2016:

134

22

156

Дополнительно: доклады на конференциях, опубликованные в материалах конференций.

99

-

99

 

Высокорейтинговые статьи в рецензируемых журналах

(фамилии сотрудников ЛНБИ выделены жирным шрифтом)

  1. Bobrovsky, A., Mochalov, K., Oleinikov, V., Sukhanova, A., Prudnikau, A., Artemyev, M., Shibaev, V., Nabiev, I. (2012) Optically and electrically controlled circularly polarized emission from cholesteric liquid crystal materials doped with semiconductor quantum dots. Advanced Materials, 24, 6216-6222. IF=19.79.
  2. Mochalov, K., Efimov, A., Bobrovsky, A., Agapov, I., Chistyakov, A., Oleinikov, V., Sukhanova, A., Nabiev, I. (2013) Combined scanning probe nanotomography and optical microspectroscopy: a correlative technique for 3D characterization of nanomaterials. ACS NANO, 7(10), 8953-8962. IF=13.942  (http://pubs.acs.org/doi/abs/10.1021/nn403448p).
  3. Shemetov, A., Nabiev, I., Sukhanova, A. (2012) Molecular interaction of proteins and peptides with nanoparticles. ACS NANO, 6 (6), 4585–4602. IF=13.942.
  4. Rakovich, T.Y., Mahfoud, O.K., Mohamed, B.M., Prina-Mello, A., Crosbie-Staunton, K., Van Den Broeck, T., De Kimpe, L., Sukhanova, A., Baty, D., Rakovich, A., Maier, S.A., Alves, F.,  Nauwelaers, F., Nabiev, I., Chames, P., Volkov, Y. (2014) Highly sensitive single domain antibody-quantum dot conjugates for detection of low expression levels of HER2 biomarker in lung and breast cancer cells. ACS NANO, 8 (6), 5682–5695. IF = 13.942
  5. Rakovich, A., Nabiev, I., Sukhanova, A., Lesnyak, V., Gaponik, N., Rakovich, Yu.P., Donegan, J.F. (2013) Large enhancement of nonlinear optical response in a hybrid nanobiomaterial consisting of bacteriorhodopsin and cadmium telluride quantum dots. ACS NANO, 7 (3), 2154–2160. IF = 13.942.
  6. Vokhmintcev, K.V., Samokhvalov, P.S., Nabiev, I. (2016) Charge transfer and separation in photoexcited quantum dot-based systems. Nano Today, 11 (2), 189–211. IF=17.476.
  7. Rakovich, A., Donegan, J.F., Oleinikov, V.A., Molinari, M., Sukhanova, A., Nabiev, I.,  Rakovich, Yu.P. (2014) Linear and nonlinear optical effects induced by energy transfert from semiconductor nanoparticles to photosensitive biological systems. J. Photochem. Photobiol. C: Photochem. Rev., 20, 17–32. IF=12.317.
  8. Montenegro, J.-M., Grazu, V., Sukhanova, A., Agarwal, S., de la Fuente, J.M., Nabiev, I., Greiner, A., Parak, W.J. (2013) Controlled antibody / (bio-) conjugation of inorganic nanoparticles for targeted delivery. Adv. Drug. Del. Rev., 65(5), 677-688. IF=11.764 (http://dx.doi.org/10.1016/j.addr.2012.12.003).
  9. Generalova, A.N., Oleinikov, V.A., Sukhanova, A., Artemyev, M.V., Zubov, V.P., Nabiev, I. (2013) Quantum dot-containing polymer particles with thermosensitive fluorescence. Biosensors and Bioelectronics, 39 (1), 187–193. IF=7.78.
  10. Linkov, P., Artemyev, M., Efimov, A., Nabiev, I. (2013) Comparative advantages and limitations of the basic metrology methods applied to characterization of nanomaterials. Nanoscale, 5, 8781-8798. IF=7.376.
  11. Melnikau, D., Savateeva, D, Lesnyak, V., Gaponik, N., Fernandez, Y.N., Vasilevskiy, M.I., Costa, M.F., Mochalov, K.E., Oleinikov, V., Rakovich, Y.P. (2013) Resonance energy transfer in self-organized organic/inorganic dendrite structures. Nanoscale, 5, 9317-9323. IF=7.376.
  12. Zaitsev, S.Yu., Solovyeva D.O., Zaitsev, I.S. (2015) Multifunctional membranes based on photosensitive crown-ether derivatives with advanced properties. Advances in Colloid and Interface Science, 222, 755–764. IF=7.223.
  13. Zaitsev, S.Y., Solovyeva, D.O. (2015) Supramolecular nanostructures based on bacterial reaction center proteins and quantum dots. Advances in Colloid and Interface Science, 218, 34-47. IF=7.223.
  14. Zaitsev S.Yu., Solovyeva D.O., Nabiev, I. (2012) Thin films and assemblies of photosensitive membrane proteins and colloidal nanocrystals for engineering of hybrid materials with advanced properties. Advances in Colloid and Interface Science, 183–184, 14–29. IF=7.223.
  15. Brazhnik, K., Sokolova, Z., Baryshnikova, M., Bilan, R., Efimov, A., Nabiev, I., Sukhanova, A. (2015) Quantum dot-based lab-on-a-bead system for multiplexed detection of free and total prostate-specific antigens in clinical human serum samplesNanomedicine: NBM, 11 (5), 1065–1075IF=5.72.
  16. Sukhanova, A., Even-Desrumeaux, K., Kisserli, A., Tabary, T., Reveil, B., Millot, J.M., Chames, P., Baty, D., Artemyev, M., Poly, S., Oleinikov, V.A., Pluot, M., Cohen, J.H.M., Nabiev, I. (2012) Oriented conjugates single-domain antibodies and quantum dots: Toward new generation of ultra-small diagnostic nanoprobes. Nanomedicine: NBM, 8, 516–525. IF=5.72.
  17. Hafian, H., Sukhanova, A., Turini, M., Chames, P., Baty, D., Pluot, M., Cohen, J.H.M., Nabiev, I., Millot, J.M. (2014) Multiphoton imaging of tumor biomarkers with conjugates of single-domain antibodies and quantum dots. Nanomedicine: NBM, 10(8), 1701–1709. IF=5.72.
  18. Samokhvalov, P., Artemyev, M., Nabiev, I. (2013) Basic principles and current trends in colloidal synthesis of highly luminescent semiconductor nanocrystals. Chemistry - Eur. J., 19(5), 1534-1546. IF=5.317.
  19. Akinfieva, O., Nabiev, I., Sukhanova, A. (2013) New directions in quantum dots-based flow cytometry detection of cancer serum markers and tumor cells. Crit. Rev. Oncol./Hematol., 86(1), 1-14. IF=4.971.
  20. Bourguet, E., Brazhnik, K., Sukhanova, A., Moroy, G., Brassart-Pasco, S., Martin, A.-P., Villena, I., Bellon, G., Sapi, J., Nabiev, I. (2016) Design, synthesis, and use of MMP-2 inhibitor-conjugated quantum dots in functional biochemical assays. Bioconjugate Chemistry, 27 (4), 1067–1081. IF=4.818.
  21. Bilan, R., Fleury, F., Nabiev, I., Sukhanova, A. (2015) Quantum dot surface chemistry and functionalization for cell targeting and imaging. Bioconjugate Chemistry, 26 (4), 609–624. IF=4.818.
  22. Kuzishchin, Yu., Martynov, I., Dovzhenko, D., Kotkovskii, G., Chistyakov, A. (2015) Surface-assisted laser desorption/ionization of trinitrotoluene on porous silicon under ambient conditions. Journal of Physical Chemistry C, 119 (11), 6382–6388. IF=4.536.
  23. Renugopalakrishnan, V., Barbiellini, B., King, C., Molinari, M., Mochalov, K., Sukhanova, A., Nabiev, I., Fojan, P., Tuller, H., Chin, M., Somasundaran, P., Padrós, E., Ramakrishna, S. (2014) Engineering a robust photovoltaic device with quantum dots and bacteriorhodopsin. Journal of Physical Chemistry C, 118 (30), 16710–16717. IF=4.536.
  24. Bilan, R., Ametzazurra, A., Brazhnik, K., Escorza, S., Fernández, D., Uríbarri, M., Nabiev, I., Sukhanova, A. (2017) Quantum-dot-based suspension microarray for multiplex detection of lung cancer markers: preclinical validation and comparison with the Luminex xMAP® system. Scientific Reports, DOI: 10.1038/srep44668. IF=4.259.
  25. Sukhanova, A., Melnikau, D., Nabiev, I. (2017) Magneto-optical activity of aqueous solutions of non-magnetic metal nanoparticles. Scientific Reports, IF=4.259, in press.
  26. Kotkovskiy, G.E., Kuzishchin, Y.A., Martynov, I.L., Chistyakov, A.A., Nabiev, I. (2012) The photophysics of porous silicon: technological and biomedical implications. PhysChemChemPhys, 14(40), 13890-13902. IF=4.123.
  27. Zaitsev, S.Yu., Solovyeva, D.O., and Nabiev, I.R. (2014) Nanobiohybrid structures based on the organized films of photosensitive membrane proteins. Russian Chemical Reviews, 83(1), 38-81. IF=4.058.
  28. Oleinikov, V. A., Sukhanova, A., Generalova, A. N., Sizova, S. V., Mochalov, K. E., Chistyakov, A. A., Artemyev, M. V., Nabiev, I. (2013) Nanoprobes on the basis of fluorescent semiconductor nanocrystals for bioassays and biosensing. FEBS J., 280 (Suppl. 1), 275. IF=3.902.
  29. Lafont, F., Ayadi, N., Charlier, C., Weigel, P., Nabiev, I., Benhelli-Mokrani, H., Fleury, F. (2017) DNA-dependent protein kinase activity assessed by quantum dot–based microarray. FEBS J., 284, P.1.2-110. Doi:10.1111/febs.14174. IF=3.902.
  30. Zaitsev, S.Yu., Lukashev, E.P., Solovyeva, D.O., Chistyakov, A.A., Oleinikov, V.A. (2014) Controlled influence of quantum dots on purple membranes at interfaces. Colloids and Surfaces B: Biointerfaces. 117, 248-251. http://dx.doi.org/10.1016/j.colsurfb.2014.02.033. IF=3.887.
  31. Krivenkov, V., Samokhvalov, P., Solovyeva, D., Bilan, R., Chistyakov, A., Nabiev, I. (2015) Two-photon-induced Förster resonance energy transfer in a hybrid material engineered from quantum dots and bacteriorhodopsin. Optics Letters, 40, 1440-1443. IF=3.416.
  32. Dayneko, S., Tameev, A., Tedoradze, M., Martynov, I., Artemyev, M., Nabiev, I., Chistyakov, A. (2013) Hybrid heterostructures based on aromatic polyimide and semiconductor CdSe quantum dots for photovoltaic applications. Appl. Phys. Lett., 103, 063302. IF=3.411. PDF Copyright by the American Institute of Physics. This article may be downloaded for personal use only.
  33. Hardzei, M., Artemyev, M., Molinari, M.,Sukhanova, A., Oleinikov, V.A., Troyon, M., Nabiev, I. (2012) Comparative efficiency of energy transfer from CdSe–ZnS quantum dots or nanorods to organic dye molecules. ChemPhysChem, 13, 330–335. IF=3.138.
  34. Bilan, R.S., Krivenkov, V.A., Berestovoy, M.A., Efimov, A.E., Agapov, I.I., Samokhvalov, P.S., Nabiev, I., Sukhanova, A. (2017) Engineering of optically encoded microbeads with FRET-free spatially separated quantum dot layers for multiplexed assays. ChemPhysChem, DOI: 10.1002/cphc.201601274. IF=3.075.
  35. Bilan, R., Nabiev, I., Sukhanova, A. (2016) Quantum dot–based nanotools for bioimaging, diagnostics, and drug delivery. ChemBioChem, 17 (22), 2103–2114. IF=2.847.
  36. Mochalov, K.E., Chistyakov, A.A., Solvyeva, D.O., Mezin, A.V., Oleinikov, V.A., Molinari, M., Agapov, I.I., Nabiev, I., Efimov, A.E. (2017) An instrumental approach to combining confocal microspectroscopy and 3D scanning probe nanotomographyUltramicroscopy, 182, 118-123. IF=2.843.
  37. Krivenkov, V.A., Solovyeva, D.O., Samokhvalov, P.S., Grinevich, R.S., Brazhnik, K.I., Kotkovskii, G.E., Lukashev, E.P., Chistyakov, A.A. (2014) Resonance energy transfer in nano-bio hybrid structures can be modulated by UV laser irradiation. Laser Phys. Lett., 11, 115601. doi:10.1088/1612-2011/11/11/115601. IF=2.537.
  38. Bouchonville, N., Le Cigne, A., Sukhanova, A., Molinari, M., Nabiev, I. (2013) Nano-biophotonic hybrid materials with controlled FRET efficiency engineered from quantum dots and bacteriorhodopsin. Laser Phys. Lett., 10, 085901. IF=2.537. (http://iopscience.iop.org/1612-202X/10/8/085901/)
  39. Prudnikau, A., Artemyev, M., Molinari, M., Troyon, M., Sukhanova, A., Nabiev, I., Baranov, A.V., Cherevkov, S.A., Fedorov, A.V. (2012) Chemical substitution of Cd ions by Hg in CdSe nanorods and nanodots: spectroscopic and stuructural examination. Materials Science and Engineering B., 177, 744–749. IF=2.552.
  40. Rousserie, G., Grinevich, R., Brazhnik, K., Even-Desrumeaux, K., Reveil, B., Tabary, T., Chames, P., Baty, D., Cohen, J.H.M., Nabiev, I., Sukhanova, A. (2015) Detection of carcinoembryonic antigen using single-domain or full-size antibodies stained with the quantum dot conjugatesAnal. Biochem., 478, 26-32. IF=2.334.
  41. Dayneko, S., Linkov, P., Martynov, I., Tameev, A., Tedoradze, M., Samokhvalov, P., Nabiev, I., Chistyakov, A. (2016) Photoconductivity of composites based on CdSe quantum dots and low-band-gap polymers. Physica E: Low-dimensional Systems and Nanostructures. doi:10.1016/j.physe.2016.01.007. IF=2.221.
  42. Sukhanova, A., Poly, S., Shemetov, A., Bronstein, I., Nabiev, I. (2012) Implications of protein structure instability: From physiological to pathological secondary structure. Biopolymers, 97, 577-588. IF=1.908.
  43. Bobrovsky, A., Shibaev, V., Elyashevitch, G., Mochalov, K., Oleynikov, V. (2015) Polyethylene-based composites containing high concentration of quantum dots. Colloid and Polymer Science, 293(5), 1545–1551. IF=1.723.
  44. Efimov, A.E., Agapov, I.I., Agapova, O.I., Oleinikov, V.A., Mezin, A.V., Molinari, M., Nabiev, I., Mochalov, K.E. (2017) A novel design of a scanning probe microscope integrated with an ultramicrotome for serial block-face nanotomography. Review Scientific Instruments, 88, 032701. IF=1.515.
  45. Zaitsev, S.Y., Shaposhnikov, M.N., Solovyeva, D.O., Zaitsev, I.S., Möbius, D. (2015) Cell staining by photo-activated dye and its conjugate with chitosan. Cell Biochemistry and Biophysics [Epub ahead of print Jan 14, 2015] IF=1.32.
  46. Zaitsev, S.Yu., Shaposhnikov, M.N., Solovyeva, D.O., Zaitsev, I.S., Möbius, D. (2013) Novel precursors of fluorescent dyes. 1. Interaction of the dyes with model phospholipid in monolayers. Cell Biochemistry and Biophysics, 67(3), 1365-1370. IF=1.32.

 

 Публикации в других рецензируемых журналах, цитируемых в базах данных Web-of-Science и/или Scopus

82. Mochalov, K., Bobrovsky, A., Solovyeva, D., Samokhvalov, P., Nabiev, I., Oleinikov, V. (2017) Microstructure and optical properties of composites consisting of nanoporous stretched polypropylene doped with liquid crystals and quantum dots at a high concentration. Orient. J. Chem. 32 (6), 2863-2872.

81. Dovzhenko, D., Terekhin, V., Vokhmintcev, K., Sukhanova, A., and  Nabiev, I. (2017) Improvement of antigen detection efficiency with the use of two-dimensional photonic crystal as a substrate. Journal of Physics: Conference Series, 784, 012018.

80. Nabiev, I. (2017) Quantum dot-based hybrid nanostructures and energy transfer on the nanoscale for single- and multi-photon imaging and cancer diagnostics. Journal of Physics: Conference Series, 784, 012041.

79. Berestovoy, M.A., Bilan, R.S., Krivenkov, V.A., Nabiev, I. and Sukhanova, A. (2017) Use of semiconductor nanocrystals to encode microbeads for multiplexed analysis of biological samples. Journal of Physics: Conference Series, 784, 012012.

78. Bozrova, S.V., Baryshnikova, M.A., Nabiev, I. and Sukhanova, A. (2017) Semiconductor quantum dot toxicity in a mouse in vivo model. Journal of Physics: Conference Series, 784, 012013.

77. Glukhov, S., Berestovoy, M., Chames, P., Baty, D., Nabiev, I. and Sukhanova, A. (2017) Quantification and imaging of HER2 protein using nanocrystals conjugated with single-domain antibodies. Journal of Physics: Conference Series, 784, 012016.

76. Terekhin, V. (2017) Synthesis of polystyrene core/SiO2 shell composite particles and fabrication of SiO2 capsules out of them. Journal of Physics: Conference Series, 784, 012006.

75. Linkov, P., Vokhmintcev, K.V., Samokhvalov, P.S. and Nabiev, I. (2017) Ultrasmall quantum dots: A tool for in vitro and in vivo fluorescence imaging. Journal of Physics: Conference Series, 784, 012033.

74. Vokhmintcev, K.V., Guhrenz, C., Gaponik, N., Nabiev, I. and Samokhvalov, P.S. (2017) Quenching of quantum dots luminescence under light irradiation and its influence on the biological application. Journal of Physics: Conference Series, 012014.

73. Nabiev I. (2017) Nanostructures based on quantum dots for application in promising methods of single- and multiphoton imaging and diagnostics. Optics and Spectroscopy, 122 (1), 1–7. IF=0.644.

72. Linkov P.A., Vokhmintsev K.V., Samokhvalov P.S, Nabiev I.R. (2017) Ultrasmall quantum dots for fluorescent bioimaging in vivo and in vitro. Optics and Spectroscopy, 122 (1), 8–11. IF=0.644.

71. Dayneko S.V., Samokhvalov P.S., Lypenko D., Nosova G.I., Berezin I.A., Yakimansky A.V., Chistyakov A.A., Nabiev I. (2017) A highly efficient white-light-emitting diode based on two-component polyfluorene/quantum dot composite. Optics and Spectroscopy, 122 (1), 12–15. IF=0.644.

70. Oleinikov V.A., Lukashev E.P., Zaitsev, S.Yu., Chistyakov A.A., Solovyeva D.O., Mochalov K.E., Nabiev I. (2017) The effect of plasmon silver and exiton semiconductor nanoparticles on the bacteriorhodopsin photocycle in Halobacterium salinarum membranes. Optics and Spectroscopy, 122 (1), 30–35. IF=0.644.

69. Krivenkov V.A., Samokhvalov P.S., Bilan R.S., Chistyakov A.A., Nabiev I. (2017) Resonant transfer of one- and two-photon excitations in quantum dot–bacteriorhodopsin complexes. Optics and Spectroscopy, 122 (1), 36–41. IF=0.644.

68. Zvaigzne M.A., Martynov I.L., Krivenkov V.A., Samokhvalov P.S., Nabiev I. (2017) Influence of the quantum dot/polymethylmethacrylate composite preparation method on the stability of its optical properties under laser radiation. Optics and Spectroscopy, 122 (1), 69–73. IF=0.644.

67. Osipov E.V., Martynov I.L., Dovzhenko D.S., Ananyev P.S., Kotkovskii G.E., Chistyakov A.A. (2017) Silicon photonic structures with embedded polymers for novel sensing methods. Optics and Spectroscopy, 122 (1), 74–78. IF=0.644.

66. Dovzhenko D.S., Martynov I.L., Kryukova I.S., Chistyakov A.A., Nabiev I. (2017) Modeling of the optical properties of porous silicon photonic crystals in the visible spectral range. Optics and Spectroscopy, 122 (1), 79–82. IF=0.644.

65. Zvaigzne, M.A., Martynov, I.L., Samokhvalov, P.S., Nabiev, I.R. (2016) Fabrication of composite materials from semiconductor quantum dots and organic polymers for optoelectronics and biomedicine: role of surface ligands. Russian Chemical Bulletin, 65 (11), 2568–2577.

64. Oleinikov V.A., Mochalov K.E., Solovyeva D.O., Chistyakov A.A., Lukashev E.P., Nabiev I. (2016) The effect of silver nanoparticles on the photocycle of bacteriorhodopsin of purple membranes of Halobacterium salinarum. Optics and Spectroscopy, 121 (2), 210–219. IF=0.644.

63. Savinov S.A., Mityagin Yu.A., Chistyakov A.A., Kozlovsky K.I., Kuzishchin Yu.A., Krivenkov V.A., Egorkin V.I., Kazakov I.P. (2015) A Study of Emission Power and Spectrum of LT-GaAs Based THz Photoconductive Antennas, Physics Procedia, 73, 54–58.doi 10.1016/j.phpro.2015.09.121

62. Efimov, A.E., Bobrovsky, A.Yu., Agapov, I.I., Agapova, O.I., Oleinikov, V.A., Nabiev, I.R., Mochalov, K.E. (2016) Scanning near-field optical nanotomography: A new method of multiparametric 3D investigation of nanostructural materials. Technical Physics Letters, 42(2), 171–174.

61. Dovzhenko, D.S., Martynov, I.L., Samokhvalov, P.S., Mochalov, K.E., Chistyakov, A.A., Nabiev, I. (2016) Modulation of quantum dot photoluminescence in porous silicon photonic crystals as a function of the depth of their penetration. In: D. Gerace, G. Lozano, C. Monat, S.G. Romanov, eds. Photonic Crystal Materials and Devices XII. Proceedings of SPIE, 9885, 988507.

60. Vokhmintcev, K.V., Nabiev, I., Samokhvalov, P.S. (2016) Drastic difference in luminescence stability between amine- and thiol-capped quantum dots treated with CO2. In: D.L. Andrews, J.-M. Nunzi, A. Ostendorf, eds. Nanophotonics VI. Proceedings of SPIE, 9884, 98841U.

59. Krivenkov, V., Tretyachenko, A., Samokhvalov, P.S., Chistyakov, A.A., Nabiev, I. (2016) Controllable photo-brightening/photo-darkening of semiconductor quantum dots under laser irradiation. In: D.L. Andrews, J.-M. Nunzi, A. Ostendorf, eds. Nanophotonics VI. Proceedings of SPIE, 9884, 98843L.

58. Dayneko, S., Nabiev, I. (2015) The potential of lasing in quantum dots for sensing and diagnostic applications. Biomedical Engineering and Computational Technologies (SIBIRCON), 2015 International Conference. IEEE Conference Publications, 122–123. DOI: 10.1109/SIBIRCON.2015.7361865.

57. Sukhanova, A., Millot, J.-M., Pluot, M., Cohen, J.H.M., Nabiev, I., Even-Desrumeaux, K., Chames, P., Baty, D. (2015) Diagnostic nanoprobes based on the conjugates of quantum dots and single-domain antibodies for cancer biomarkers detection in immunohistochemistry and flow cytometry. Biomedical Engineering and Computational Technologies (SIBIRCON), 2015 International Conference. IEEE Conference Publications, 113–118. DOI: 10.1109/SIBIRCON.2015.7361863.

56. Sukhanova, A., Hafian, H., Pluot, M., Cohen, J.H.M., Millot, J.-M., Nabiev, I., Turini, M., Chames, P., Baty, D. (2015) Multiphoton imaging of tumor biomarkers in situ using highly oriented conjugates of single-domain antibodies and quantum dots. Biomedical Engineering and Computational Technologies (SIBIRCON), 2015 International Conference. IEEE Conference Publications, 119–121, DOI: 10.1109/SIBIRCON.2015.7361864.

55. Aleksandrova, E.L., Svetlichnyi, V.M., Matyushina, N.V., Myagkova, L.A., Daineko, S.V., Martynov, I.L., Tameev, A.R., (2015) Luminescence-kinetic spectroscopy of compound complexes of polyphenylquinolines. Semiconductors, 49 (7) 959–961.

54. Nabiev, I. (2015) Nano-bio hybrid materials for a new generation of high-throughput diagnostic systems. Physics Procedia, 73, 95–99.

53. Bilan, R., Brazhnik, K., Chames, P., Baty, D., Nabiev, I., Sukhanova, A. (2015) Oriented conjugates of single-domain antibodies and fluorescent quantum dots for highly sensitive detection of tumor-associated biomarkers in cells and tissues. Physics Procedia, 73, 228–234.

52. Brazhnik, K., Sokolova, Z., Baryshnikova, M., Bilan, R., Nabiev, I., Sukhanova, A. (2015) Multiplexed analysis of serum breast and ovarian cancer markers by means of suspension bead–quantum dot microarrays. Physics Procedia, 73, 235–240.

51. Dovzhenko, D., Osipov, E., Martynov, I., Linkov, P., Chistyakov, A. (2015) Enhancement of spontaneous emission from CdSe/CdS/ZnS quantum dots at the edge of the photonic band gap in a porous silicon Bragg mirror. Physics Procedia, 73, 126–130.

50. Efimov, A., Agapova, O., Mochalov, K., Agapov, I. (2015) Three-dimensional analysis of nanomaterials by scanning probe nanotomography. Physics Procedia, 73, 173–176.

49. Krivenkov, V., Linkov, P., Solovyeva, D., Bilan, R., Chistyakov, A., Nabiev, I. (2015) Energy transfer processes under one- and two-photon excitation of nano-biohybrid structures based on semiconductor quantum dots and purple membranes. Physics Procedia, 73, 143–149.

48. Kuzishchin, Yu., Dovzhenko, D., Martynov, I., Kotkovskii, G., Chistyakov, A. (2015) Dissociation of trinitrotoluene on the surface of porous silicon under laser irradiation. Physics Procedia, 73, 159–162.

47. Linkov, P., Laronze-Cochardc, M., Sapic, J., Sidorov, L., Nabiev, I. (2015) Multifunctional nanoprobes for cancer cell targeting, imaging and anticancer drug delivery. Physics Procedia, 73, 216–220.

46. Martynov, I., Kuzishchin, Yu., Dovzhenko, D., Kotkovskii, G., Chistyakov, A. (2015) Ionization of the nitroaromatic compounds in an ion mobility spectrometer with an ion source based on porous silicon under laser irradiation. Physics Procedia, 73, 163–167.

45. Mochalov, K., Efimov, A., Oleinikov, V., Nabiev, I. (2015) High-resolution scanning near-field optical nanotomography: A technique for 3D multimodal nanoscale characterization of nano-biophotonic materials. Physics Procedia, 73, 168–172.

44. Zvaigzne, M., Martynov, I., Samokhvalov, P., Mochalov, K., Chistyakov, A. (2015) Influence of surface ligands on the luminescent properties of cadmium selenide quantum dots in a polymethylmethacrylate matrix. Physics Procedia, 73, 150–155.

43. Dovzhenko, D., Osipov, E., Martynov, I., Linkov, P. (2015) Spatial and spectral properties of CdSe/CdS/ZnS quantum dots luminescence in one-dimensional photonic structures based on porous silicon. Proceedings of International Conference NANOMEETING 2015: Physics, Chemistry and Applications of Nanostructures – Reviews and Short Notes, O-11, 144-147.

42. Nabiev, I., Sukhanova, A. (2015) What happens when nanotechnology meets biology: breakthrough applications are accompanied with unexpected hazards Proceedings of International Conference NANOMEETING 2015: Physics, Chemistry and Applications of Nanostructures – Reviews and Short Notes, O-25, 447-450.

41. Krivenkov, V., Chistyakov, A., Samokhvalov, P., Solovyeva, D., Bilan, R. (2015) Förster resonance energy transfer under one- and two-photon excitation in nano-bio hybrid complexes forming from quantum dots and bacteriorhodopsin. Proceedings of International Conference NANOMEETING 2015: Physics, Chemistry and Applications of Nanostructures – Reviews and Short Notes, O-28, 461-464.

40. Sukhanova, A., Nabiev, I., Hafian, H., Pluot, M., Cohen, J.H.M., Millot, J.-M., Bilan, R., Brazhnik, K., Baryshnikova, M., Sokolova, Z., Chames, P., Baty, D. (2015) Single-photon and two-photon tumor imaging and diagnosis using oriented conjugates of single-domain antibodies and quantum dots. Proceedings of International Conference NANOMEETING 2015: Physics, Chemistry and Applications of Nanostructures – Reviews and Short Notes, O-31, 495-498.

39. Dayneko, S., Samokhvalov, P., Martynov, I., Chistyakov. A., Tameev, A., Tedoradze, M. (2015) Photovoltaic structures based on organic semiconductors and CdSe quantum dots. Proceedings of International Conference NANOMEETING 2015: Physics, Chemistry and Applications of Nanostructures – Reviews and Short Notes, O-62, 520-523.

38. Sukhanova, A., Even-Desrumeaux, K., Millot, J.-M., Chames, P., Baty, D., Pluot, M., Cohen, J.H.M., Nabiev, I. (2016) Nanosized fluorescent diagnostic probes consisting of single-domain antibodies conjugated with quantum dots. Materials Today: Proceedings, 3, 518–522.

37. Sukhanova, A., Hafian, H., Turini, M., Chames, P., Baty, D., Pluot, M., Cohen, J.H.M., Millot, J.-M., Nabiev, I. (2016) Multiphoton imaging of tumor biomarkers in situ using singledomain antibodies conjugated with quantum dots in a set orientation. Materials Today: Proceedings, 3, 523–526.

36. Linkov, P., Krivenkov, V., Samokhvalov, P., Nabiev, I. (2016) High quantum yield CdSe/ZnS/CdS/ZnS multishell quantum dots for biosensing and optoelectronic applications. Materials Today: Proceedings, 3, 104–108.

35. Dayneko, S., Lypenko, D., Sannikova, N., Linkov, P., Tameev, A., Nikitenko, V., Samokhvalov, P., Chistyakov, A. (2016) Application of CdSe/ZnS/CdS/ZnS core–multishell quantum dots to modern OLED technology. Materials Today: Proceedings, 3, 211–215.

34. Dovzhenko, D., Osipov, E., Martynov, I., Samokhvalov, P., Eremin, I., Kotkovskii, G., Chistyakov, A. (2016) Porous silicon microcavity modulates the photoluminescence spectra of organic polymers and quantum dots. Materials Today: Proceedings, 3, 485–490.

33. Krivenkov, V., Linkov, P., Solovyeva, D., Bilan, R., Chistyakov, A., Nabiev, I. (2016) Two-photon-induced Förster resonance energy transfer in a quantum dot–bacteriorhodopsin hybrid material. Materials Today: Proceedings, 3, A1–A5.

32. Mochalov, K., Solvyeva, D., Chistyakov, A., Zimka, B., Lukashev, E., Nabiev, I., Oleinikov, V. (2016) Raman and SERS spectroscopy of D96N mutant bacteriorhodopsin. Materials Today: Proceedings, 3, 497–501.

31. Mochalov, K, Solvyeva, D., Chistyakov, A., Zimka, B., Lukashev, E., Nabiev, I., Oleinikov, V. (2016) Silver nanoparticles strongly affect the properties of bacteriorhodopsin, a photosensitive protein of Halobacterium salinarum purple membranes. Materials Today: Proceedings, 3, 502–506.

30. Sizova, S., Generalova, A., Tretyak, M., Mochalov, K., Samokhvalov, P., Nabiev, I., Oleinikov, V. (2016) Submicron QDs-containing particles as nano-thermosensors. Materials Today: Proceedings, 3, 617–621.

29. Grinevich, R., Rousserie, G., Brazhnik, K., Even-Desrumeaux, R., Reveil, B., Tabary, T., Chames, P., Baty, D., Cohen, J.H.M., Nabiev, I., Sukhanova, A. (2014) Detection of carcinoembryonic antigen on colon cancer cells using single-domain antibodies and quantum dots. Acta Naturae, спецвыпуск: Тезисы конференции "Наука будущего", С.-Петербург, 17-20 сентября 2014 г., 76.

28. Krivenkov, V.A., Samokhvalov, P.S., Linkov, P.A., Prokhorov, S.D., Martynov, I.L., Chistyakov, A.A., Nabiev, I. (2015) Effects of surface ligands and solvents on quantum dot photostability under pulsed UV laser irradiation. Quantum Optics and Quantum Information Transfer and Processing. Proceedings of SPIE, 9505, 95050U (May 7, 2015). doi:10.1117/12.2179240.

27. Bobrovsky, A., Samokhvalov, P., Shibaev, V. (2014) An effective method for preparation of stable LC composites with high concentration of quantum dots. Advanced Optical Materials. 2, 1167–1172.

26. Dayneko, S., Lypenko, D., Linkov, P., Tameev, A., Martynov, I., Samokhvalov, P., Chistyakov, A. (2014) Effect of surface ligands on the performance of organic light-emitting diodes containing quantum dots. Proc. of SPIE 9270, Optoelectronic Devices and Integration V, 927009 (October 24, 2014).

25. Krivenkov, V.A., Solovyeva, D.O., Samokhvalov, P.S., Brazhnik, K.I., Kotkovskiy, G.E., Chistyakov, A.A., Lukashev, E.P., Nabiev, I.R. (2014) Photoinduced modification of quantum dot optical properties affects bacteriorhodopsin photocycle in a (quantum dot)–bacteriorhodopsin hybrid material. Journal of Physics: Conference Series. 541, 012045.

24.   Brazhnik, K., Nabiev, I., Sukhanova, A. (2014) Oriented conjugation of single-domain antibodies and quantum dots. Methods in Molecular Biology, 1199, 129-140.

23.   Brazhnik, K., Nabiev, I., Sukhanova, A. (2014) Advanced procedure for oriented conjugation of full-size antibodies with quantum dots. Methods in Molecular Biology, 1199, 55-66.

22. Krivenkov, V.A., Samokhvalov, P.S., Linkov, P.A., Solovyeva, D.O., Kotkovskiy, G.E., Chistyakov, A.A., Nabiev, I.R. (2014) Surface ligands affect photoinduced degradation of the quanyum dots optical performance. In: D.L. Andrews, J.-M. Nunzi, A. Ostendorf, eds., Nanophotonics V. Proc. of SPIE, 9126, 91263N-1—91263N-8.

21. Dovzhenko, D.S., Martynov, I.L., Samokhvalov, P.S., Eremin I.S., Kotkovskiy, G.E., Sipailo, I.P., Chistyakov, A.A. (2014) Photoluminescence of CdSe/ZnS quantum dots in a porous silicon microcavity. In: D.L. Andrews, J.-M. Nunzi, A. Ostendorf, eds., Nanophotonics V. Proc. of SPIE, 9126, 91263O-1—91263O-7.

20. Brazhnik, K., Grinevich, R., Efimov, A.E., Nabiev, I., Sukhanova, A. (2014) Development and potential applications of microarrays based on fluorescent nanocrystal-encoded beads for multiplexed cancer diagnostics. In: J. Popp, V.V. Tuchin, D.L. Matthews, F.S. Pavone, eds., Biophotonics: Photonic Solutions for Better Health Care IV,  Proc. of SPIE, 9129, 91292C-1—91292C-9.

19. Samokhvalov, P., Linkov, P., Michel, J., Molinari, M., Nabiev, I. (2014) Photoluminescence quantum yield of CdSe-ZnS/CdS/ZnS core-multishell quantum dots approaches 100% due to enhancement of charge carrier confinement. In: W.J. Parak, M. Osinski, K.I. Yamamoto, eds. Colloidal Nanoparticles for Biomedical Applications IX. Proceedings of SPIE, Vol. 8955, 89550S.

18. Dayneko, S., Tameev, A., Tedoradze, M., Martynov, I., Linkov, P., Samokhvalov, P., Nabiev, I., Chistyakov, A. (2014) Hybrid bulk heterojunction solar cells based on low band gap polymers and CdSe nanocrystals. In: A. Freundlich, J.-F. Guillemoles, eds. Physics, Simulation, and Photonic Engineering of Photovoltaic Devices III.  Proceedings of SPIE, 8981, 898113.

17. Samokhvalov, P.S., Artemyev, M.V., Nabiev, I.R. (2013) Current methods of the synthesis of luminescent semiconductor nanocrystals for biomedical applications. Nanotechnologies in Russia, 8(5–6), 409–422.

16. Rumyantsev, K.A., Shemetov, A.A., Nabiev, I., Sukhanova, A.V. (2013) Interactions of proteins and peptides with nanoparticles: structural and functional aspects. Nanotechnologies in Russia, 8(11–12), 18–34.

15. Mochalov, K.E., Efimov, A.E., Bobrovsky, A.Yu., Agapov, I.I., Chistyakov, A.A., Oleinikov, V.A., Nabiev, I. (2013) High-resolution 3D structural and optical analyses of hybrid or composite materials by means of scanning probe microscopy combined with the ultramicrotome technique: An example of application to engineering of liquid crystals doped with fluorescent quantum dots. In: J.-M. Fédéli, L. Vivien, and M. K. Smit, eds. Integrated Photonics: Materials, Devices, and Applications II. Proc. SPIE, 8767, 876708. DOI:10.1117/12.2017088.

14. Sukhanova, A., Even-Desrumeaux, K., Chames, P., Baty, D., Artemyev, M., Oleinikov, V., Nabiev, I. (2012) Engineering of ultra-small diagnostic nanoprobes through oriented conjugation of single-domain antibodies and quantum dots. Nature Protocols / Protocols Exchange, DOI: 10.1038/protex.2012.042; http://www.nature.com/protocolexchange/protocols/2463

13.    Дайнеко, C.В., Артемьев, М.В., Набиев, И.Р., Тедорадзе, М.Г., Чистяков, А.А. (2012) Солнечные ячейки на основе гибридных гетероструктур из органических полупроводников и квантовых точек. Нано- и микросистемная техника, 9, 2–6.

12.    Sukhanova, A., Poly, S., Shemetov, A., Nabiev, I. (2012) Quantum dots induce charge-specific amyloid-like fibrillation of insulin at physiological conditions. In : S.H. Choi, J.-H. Choy, U. Lee, V.K. Varadan, eds. Nanosystems in Engineering and Medicine. Proceedings of SPIE, Vol. 8548 (SPIE, Bellingham, WA 2012), 85485F. DOI: 10.1117/12.946606. 

11.    Bouchonville, N., Molinari, M., Le Cigne, A., Troyon, M., Sukhanova, A., Nabiev, I. (2012) Semiconductor quantum dots affect the fluidity of Halobacterium salinarum purple membranes through disruption of bacteriorhodopsin trimer organization. In : S.H. Choi, J.-H. Choy, U. Lee, V.K. Varadan, eds. Nanosystems in Engineering and Medicine. Proceedings of SPIE, Vol. 8548 (SPIE, Bellingham, WA 2012), 85480V.

10.  Hafian, H., Sukhanova, A., Chames, P., Baty, D., Pluot, M., Cohen, J.H.M., Nabiev, I., Millot, J.M. (2012) Bi-photon imaging and diagnostics with the ultra-small diagnostic probes engineered from semiconductor nanocrystals and single-domain antibodies. In : S.H. Choi, J.-H. Choy, U. Lee, V.K. Varadan, eds. Nanosystems in Engineering and Medicine Proceedings of SPIE, Vol. 8548 (SPIE, Bellingham, WA 2012), 85480R. DOI : 10.1117/12.960493

9.   Artemyev, M., Nabiev, I. (2012) Molecular beacons involving highly luminescent colloidal quantum dots. Journal of Nanophotonics, 6(1), 060304.

8.  Artemyev, M. (2012) Resonance energy transfer in conjugates of semiconductor nanocrystals and organic dye molecules. Journal of Nanophotonics, 6(1), 061705.

7.  Oleinikov, V., Generalova, A., Sukhanova, A., Artemyev, M., Zubov, V., Nabiev, I. (2012) Quantum dot-containing polymer particles with thermosensitive fluorescence. In:  H. Mohseni, M.H. Agahi, and M. Razeghi, eds. Biosensing and Nanomedicine V. Proceedings of SPIE, Vol. 8460, (SPIE, Bellingham, WA 2012), 84600Y.

6.  Dayneko, S.V., Tedoradze, M.G., Artemyev, M.V., Nabiev, I., Chistyakov, A.A. (2012) Engineering of hybrid heterostructures from organic semiconductors and semiconductor quantum dots for advanced photovoltaic applications. In: L. Tsakalakos, ed. Next Generation (Nano) Photonic and Cell Technologies for Solar Energy Conversion III. Proceedings of SPIE, Vol. 8471 (SPIE, Bellingham, WA 2012), 84710W. 

5.  Artemyev, M., Sukhanova, A., Krutokhvostov, R., Melnikau, D., Oleinikov, V., Nabiev, I. (2012) Low-field magnetic circular dichroism in silver and gold colloidal nanoparticles of different size, shape, and aggregation. In: M.I. Stockman, ed. Plasmonics: Metallic Nanostructures and Their Optical Properties X. Proceedings of SPIE, Vol. 8457 (SPIE, Bellingham, WA 2012) 845729.

4.  Bouchonville, N., Le Cigne, A., Sukhanova, A., Saab, M.-b., Troyon, M., Molinari, M., Nabiev, I. (2012) Controlled FRET efficiency in nano-bio hybrid materials made from semiconductor quantum dots and bacteriorhodopsin. In:  H. Mohseni, M.H. Agahi and M. Razeghi, eds. Biosensing and Nanomedicine V. Proceedings of SPIE, Vol. 8460 (SPIE, Bellingham, WA 2012) 84600X.

3.  Bobrovsky, A., Mochalov, K., Oleinikov, V., Shibaev, V., Artemyev, M., Nabiev, I. (2012) Novel cholesteric materials doped with CdSe/ZnS quantum dots with photo-and electrotunable circularly polarized emission. In: I. Choon Khoo ed.  Liquid Crystals XVI. Proceedings of SPIE, Vol. 8475 (SPIE, Bellingham, WA 2012) 847514.

2.  Oleinikov, V., Bouchonville, N., Molinari, M., Sizova, S., Mochalov, K., Chistyakov, A., Sukhanova, A., Schapov, A., Artemyev, M., Lukashev, E., Nabiev, I. (2012) Extension of the spectral range of bacteriorhodopsin functional activity by energy transfer from quantum dots. In: N. Kobayashi, F. Ouchen, and I. Rau eds. Nanobiosystems: Processing, Characterization, and Applications V.  Proceedings of SPIE, Vol. 8464 (SPIE, Bellingham, WA 2012), 84640Z.

1.  Sukhanova, A., Even-Desrumeaux, K., Millot, J., Chames, P., Baty, D., Artemyev, M., Oleinikov, V., Cohen, J. H. M., Nabiev, I. (2012) Oriented conjugates of monoclonal and single-domain antibodies with quantum dots for flow cytometry and immunohistochemistry diagnostic applications. In: W.J. Parak, K. Yamamoto, M. Osinski, eds. Colloidal Nanocrystals for Biomedical Applications VII. Proceedings of SPIE, Vol. 8232 (SPIE, Bellingham, WA 2012) 82320T.

 

Публикации в других журналах, входящих в перечень ВАК 

5. Ефимов, А.Е., Бобровский, А.Ю., Агапов, И.И., Агапова, О.И., Олейников, В.А., Набиев, И.Р., Мочалов, К.Е. (2016) Сканирующая ближнепольная оптическая нанотомография: метод многопараметрического 3D-исследования наноструктурированных материалов. Письма в журнал технической физики, 42(4), 9–15.

4. Билан, Р.С., Бражник, К.И., Шамс, П., Бати, Д., Набиев, И.Р., Суханова, А.В. (2014) Ориентированные конъюгаты однодоменных антител и флуоресцентных нанокристаллов: новое поколение диагностических нанометок для высокопроизводительной детекции онкомаркеровРоссийский биотерапевтический журнал, 13(4), 11-16.

3. Бражник, К.И., Соколова, З.А., Барышникова, М.А., Билан, Р.С., Набиев, И.Р., Суханова, А.В. (2014) Разработка суспензионных микрочипов на основе микросфер, кодированных флуоресцентными нанокристаллами, и принципы их использования для многопараметрической диагностики онкологических заболеваний. Российский биотерапевтический журнал, 13(4), 3-10.

2.    Котковский, Г.Е., Кузищин, Ю.А., Мартынов, И.Л., Набиев, И.Р., Чистяков, А.А. (2013) Фотофизические свойства пористого кремния и его применение в технике и биомедицине. Ядерная физика и инжиниринг, 4(2), 174–192.

1.    Бражник, К.И., Барышникова, М.А., Соколова, З.И., Суханова, А.В. (2013) Новые направления в исследовании и ранней диагностике рака с применением детекционных систем на основе флуоресцентных нанокристаллов. Российский биотерапевтический журнал, 12(3), 11–24.

 

 Монографии, учебники

3.  Sizova, S.V., Oleinikov, V.A., Bouchonville, N., Molinari, M., Samokhvalov, P.S., Sukhanova, A., Nabiev, I. (2017) Energy transfer mechanisms in nanobiohybrid structures based on quantum dots and photosensitive membrane proteins. In: Burghardt, I., Haacke, S., eds. Ultrafast Dynamics at the Nanoscale: Biomolecules and Supramolecular Assemblies. Singapore: Pan Stanford Publishing, chapter 5, pp. 167–206. ISBN: 978-981-4745-33-8.

2.  Le Cigne, A., Sukhanova, A., Nabiev, I. (2013) Biological applications of cadmium telluride semiconductor quantum dots. In: J.F. Donegan, Yu. Rakovich, eds. Cadmium telluride quantum dots. Pan Stanford Publishing.  ISBN 9789814316057. http://www.crcpress.com/product/isbn/9789814316057.

1.  Зайцев, С.Ю., Соловьева, Д.О. (2012) Основы биомедицинских нанотехнологий:  Учебно-методическое пособие. М.: ФГБОУ ВПО МГАВМиБ - 72 с.

 

Опубликованные сообщения на конференциях и симпозиумах

99. Nabiev, I. (2016) Quantum dot-based hybrid nanostructures and energy transfer on the nanoscale for single- and multi-photon imaging and cancer diagnostics. The First International Symposium "Physics, Engineering and Technologies for Bio-Medicine", October 18-23, 2016, Moscow, Russia. Invited presentation.

98. Berestovoy, M.A., Bilan, R.S., Krivenkov, V.A., Nabiev, I. and Sukhanova, A. Use of semiconductor nanocrystals to encode microbeads for multiplexed analysis of biological samples. The First International Symposium "Physics, Engineering and Technologies for Bio-Medicine", October 18-23, 2016, Moscow, Russia.

97. Bozrova, S.V., Baryshnikova, M.A., Nabiev, I. and Sukhanova, A. (2016) Semiconductor quantum dot toxicity in a mouse in vivo model. The First International Symposium "Physics, Engineering and Technologies for Bio-Medicine", October 18-23, 2016, Moscow, Russia.

96. Glukhov, S., Berestovoy, M., Chames, P., Baty, D., Nabiev, I. and Sukhanova, A. (2016) Quantification and imaging of HER2 protein using nanocrystals conjugated with single-domain antibodies. The First International Symposium "Physics, Engineering and Technologies for Bio-Medicine", October 18-23, 2016, Moscow, Russia.

95. Terekhin, V. (2016) Synthesis of polystyrene core/SiO2 shell composite particles and fabrication of SiO2 capsules out of them. The First International Symposium "Physics, Engineering and Technologies for Bio-Medicine", October 18-23, 2016, Moscow, Russia.

94. Linkov, P., Vokhmintcev, K.V., Samokhvalov, P.S. and Nabiev, I. (2016) Ultrasmall quantum dots: a tool for in vitro and in vivo fluorescence imaging. The First International Symposium "Physics, Engineering and Technologies for Bio-Medicine", October 18-23, 2016, Moscow, Russia.

93. Vokhmintcev, K.V., Guhrenz, C., Gaponik, N., Nabiev, I. and Samokhvalov, P.S. (2016) Quenching of quantum dots luminescence under light irradiation and its influence on the biological application. The First International Symposium "Physics, Engineering and Technologies for Bio-Medicine", October 18-23, 2016, Moscow, Russia.

92. Vokhmintcev, K.V., Guhrenzb, C., Gaponik, N., Nabiev, I., Samokhvalov, P.S. (2016) Quenching of quantum dot luminescence under light irradiation. II Международная научная конференция "Наука будущего". Казань, 20–23 сентября 2016 г.

91. Glukhov S., Berestovoy, M., Chames, P., Baty, D., Ramos Gomes, F., Alves, F., Nabiev, I., Sukhanova, A. (2016) Quantification and visualization of HER2 protein using nanocrystals conjugated with single domain antibodies. II Международная научная конференция "Наука будущего". Казань, 20–23 сентября 2016 г.

90. Bozrova, S.V., Baryshnikova, M.A., Nabiev, I., Sukhanova, A. (2016) Semiconductor quantum dot toxicity in a mouse in vivo model. II Международная научная конференция "Наука будущего". Казань, 20–23 сентября 2016 г.

89. Terekhin, V.V. (2016) Мesoporous microcapsules based on polystyrol SiO2 core/shell nanoparticles: synthesis and functional carrier's properties. II Международная научная конференция "Наука будущего". Казань, 20–23 сентября 2016 г.

88. Nabiev, I. (2016) Advanced multi-photon imaging and diagnostics with quantum dot-based hybrid nanostructures. II Международная научная конференция "Наука будущего". Казань, 20–23 сентября 2016 г.

87. Nabiev, I. (2016) Colloidal nanocrystals as novel materials for biomedical applications.II Международная научная конференция "Наука будущего". Казань, 20–23 сентября 2016 г.

86. Berestovoy, M.A., Bilan, R.S., Krivenkov, V.A., Nabiev, I., Sukhanova, A. (2016) Use of semiconductor nanocrystals to encode microbeads for multiplexed analysis of biological samples. II Международная научная конференция "Наука будущего". Казань, 20–23 сентября 2016 г.

85. Osipov E.V., Ananyev P.S., Dovzhenko D.S., Martynov I.L., Kotkovskii G.E., Chistyakov A.A. (2016) Polymer embedded silicon photonic structures for novel sensing methods. PCNSPA Conference 2016—Photonic Colloidal Nanostructures: Synthesis, Properties, and Applications, St. Petersburg, Russia, Jun 27–Jul 1, 2016, 149-150.

84. Dayneko S.V., Samokhvalov P.S., Lypenko D., Nosova G.I., Berezin I.A., Yakimansky A.V., Chistyakov A.A., Nabiev I. (2016) A highly efficient white light-emitting diode based on two-component polyfluorene/quantum dot composite. PCNSPA Conference 2016—Photonic Colloidal Nanostructures: Synthesis, Properties, and Applications, St. Petersburg, Russia, Jun 27–Jul 1, 2016, 57-58.

83. Dovzhenko D.S., Martynov I.L., Rakhimov R.A., Krukova I.S., Chistyakov A.A., Nabiev I. (2016) Modelling of porous silicon photonic crystal properties in the visible range of the optical spectrum. PCNSPA Conference 2016—Photonic Colloidal Nanostructures: Synthesis, Properties, and Applications, St. Petersburg, Russia, Jun 27–Jul 1, 2016, 151-153.

82. Zvaigzne M.A., Martynov I.L., Krivenkov V.A., Samokhvalov P.S., Nabiev I. (2016) The optical properties of quantum dot-PMMA composites under laser irradiation are determined by the method of preparation of these composites. PCNSPA Conference 2016—Photonic Colloidal Nanostructures: Synthesis, Properties, and Applications, St. Petersburg, Russia, Jun 27–Jul 1, 2016, 142-143.

81. Krivenkov V.A., Samokhvalov P.S., Bilan R.S., Chistyakov A.A., Nabiev I. (2016) Resonance transfer of one- and two-photon excitations in quantum dot–bacteriorhodopsin complexes. PCNSPA Conference 2016—Photonic Colloidal Nanostructures: Synthesis, Properties, and Applications, St. Petersburg, Russia, Jun 27–Jul 1, 2016, 105-106.

80. Linkov P., Krivenkov V., Samokhvalov P., Laronze-Cochard M., Sapi J., Nabiev I. (2016) CdSe/ZnS/CdS/ZnS QDs with advanced two-photon properties for tumor diagnosis and treatment. PCNSPA Conference 2016—Photonic Colloidal Nanostructures: Synthesis, Properties, and Applications, St. Petersburg, Russia, Jun 27–Jul 1, 2016, 55-56.

79. Oleinikov V.A., Lukashev E.P., Zaitsev S.Yu., Chistyakov A.A., Solovyeva D.O., Mochalov K.E., Nabiev I. (2016) Effects of plasmon silver and exciton semiconductor nanoparticles on the photocycle of bacteriorhodopsin in membranes of Halobacterium salinarum. PCNSPA Conference 2016—Photonic Colloidal Nanostructures: Synthesis, Properties, and Applications, St. Petersburg, Russia, Jun 27–Jul 1, 2016, 100-102.

78. Nabiev I. (2016) Quantum dot-based hybrid nanostructures for advanced single- and multi-photon imaging and diagnostics. PCNSPA Conference 2016—Photonic Colloidal Nanostructures: Synthesis, Properties, and Applications, St. Petersburg, Russia, Jun 27–Jul 1, 2016, 28-30.

77. Krivenkov V., Tretyachenko A., Samokhvalov P.S., Chistyakov A.A., Nabiev I. (2016) Controllable photo-brightening/photo-darkening of semiconductor quantum dots under laser irradiation. SPIE Photonics Europe 2016, Brussels, Belgium Apr 3–7, 2016.

76. Dovzhenko D.S., Martynov I.L., Samokhvalov P.S., Mochalov K.E., Chistyakov A.A., Nabiev I. (2016) Modulation of quantum dot photoluminescence in porous silicon photonic crystals as a function of the depth of their penetration. SPIE Photonics Europe 2016, Brussels, Belgium Apr 3–7, 2016.

75. Krivenkov V.A., Samokhvalov P.S., Bilan R.S., Chistyakov A.A., Nabiev I. (2016) Resonance transfer of one- and two-photon excitations in quantum dot–bacteriorhodopsin complexes. Nanotech France 2016, Paris, France, Jun 1–3, 2016.

74. Dovzhenko, D., Osipov, E., Martynov, I., Linkov, P. (2015) Spatial and spectral properties of CdSe/CdS/ZnS quantum dots luminescence in one-dimensional photonic structures based on porous silicon. International Conference Nanomeeting 2015, Minsk, Belarus, 26-29 May 2015, O-11. Oral presentation.

73. Nabiev, I., Sukhanova, A. (2015) What happens when nanotechnology meets biology: breakthrough applications are accompanied with unexpected hazards. International Conference Nanomeeting 2015, Minsk, Belarus, 26-29 May 2015, O-25. Oral presentation.

72. Krivenkov, V., Chistyakov, A., Samokhvalov, P., Solovyeva, D., Bilan, R. (2015) Förster resonance energy transfer under one and two-photon excitation in nano-bio hybrid complexes forming from quantum dots and bacteriorhodopsin. International Conference Nanomeeting 2015, Minsk, Belarus, 26-29 May 2015, O-28. Oral presentation.

71. Sukhanova, A., Nabiev, I., Hafian, H., Pluot, M., Cohen, J.H.M., Millot, J.-M., Bilan, R., Brazhnik, K., Baryshnikova, M., Sokolova, Z., Chames, P., Baty, D. (2015) Single-photon and two-photon tumor imaging and diagnosis using oriented conjugates of single-domain antibodies and quantum dots. International Conference Nanomeeting 2015, Minsk, Belarus, 26-29 May 2015, O-31. Oral presentation.

70. Dayneko, S., Samokhvalov, P., Martynov, I., Chistyakov. A., Tameev, A., Tedoradze, M. (2015) Photovoltaic structures based on organic semiconductors and CdSe quantum dots. International Conference Nanomeeting 2015, Minsk, Belarus, 26-29 May 2015, O-62. Oral presentation.

69. Sukhanova, A., Even-Desrumeaux, K., Millot, J.-M., Chames, P., Baty, D., Pluot, M., Cohen, J.H.M., Nabiev, I. (2015) Ultra-small diagnostic nanoprobes based on the oriented conjugates of single-domain antibodies and quantum dots. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0604009-S5_P4QZ-O. Oral presentation.

68. Sukhanova, A., Hafian, H., Turini, M., Chames, P., Baty, D., Pluot, M., Cohen, J.H.M., Millot, J.-M., Nabiev, I. (2015) Highly oriented conjugates of single-domain antibodies and quantum dots for multiphoton imaging of tumor biomarkers in situ. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0614018-S5_XY6R-O. Oral presentation.

67. Linkov, P., Krivenkov, V., Samokhvalov, P., Nabiev, I. (2015) High quantum yield CdSe/ZnS/CdS/ZnS multishell quantum dots for applications in biosensing and optoelectronics. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0722021-S7_MNJ7-O. Oral presentation.

66. Dayneko, S., Lypenko, D., Sannikova N., Linkov, P., Tameev, A., Nikitenko V., Samokhvalov, P., Chistyakov, A. (2015) Application of CdSe/ZnS/CdS/ZnS core–multishell quantum dots to modern OLED technology. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0803078-S7_2J58-O. Oral presentation.

65. Dovzhenko, D., Osipov, E., Martynov, I., Samokhvalov, P., Eremin, I., Kotkovskii, G., Chistyakov, A. (2015) Porous silicon microcavity modulates the photoluminescence spectra of organic polymers and quantum dots. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0793072-S7_UN63-O. Oral presentation.

64. Krivenkov, V., Linkov, P., Solovyeva, D., Bilan, R., Chistyakov, A., Nabiev, I. (2015) Two-photon-induced Förster resonance energy transfer in a quantum dot–bacteriorhodopsin hybrid material. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0794073-S7_RQYW-O. Oral presentation.

63. Mochalov, K., Solvyeva, D., Chistyakov, A., Zimka, B., Lukashev, E., Nabiev, I., Oleinikov, V. (2015) Raman and SERS spectroscopy of D96N mutant bacteriorhodopsin. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0616020-S5_82Q9-P. Poster presentation.

62. Mochalov, K, Solvyeva, D., Chistyakov, A., Zimka, B., Lukashev, E., Nabiev, I., Oleinikov, V. (2015) Silver nanoparticles strongly affect the properties of bacteriorhodopsin, a photosensitive protein of Halobacterium salinarum purple membranes. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0615019-S5_D4AJ-O. Oral presentation.

61. Sizova, S., Generalova, A., Tretyak, M., Mochalov, K., Samokhvalov P., Nabiev, I., Oleinikov, V. (2015) Submicron QDs-containing particles as nano-thermosensors. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0613017-S5_HFSA-O. Oral presentation.

60. Brazhnik, K., Bilan, R., Nabiev, I., Sukhanova, A. (2015) Cancer marker profiling by means of microbead–quantum dot microarrays. Advances in Functional Materials Conference 2015, Stony Brook University, USA, Jun 29–Jul 3, 2015, AFM15-0597004-S5_ACC3-P. Poster presentation.

59. Набиев, И.Р. (2015) Нанобиогибридные материалы для высокопроизводительных диагностических систем новых поколений. Научная сессия НИЯУ МИФИ-2015, 16–21 февраля 2015 г. Конференция "Наука о жизни (высокотехнологическая медицина)", секция "Наноматериалы для терапии, диагностики и мониторинга результатов лечения". Устный доклад.

58. Самохвалов, П.С. (2015) Моделирование роста полупроводниковых нанокристаллов для оптимизации их синтеза и оптических свойств. Научная сессия НИЯУ МИФИ-2015, 16–21 февраля 2015 г. Конференция "Наука о жизни (высокотехнологическая медицина)", секция "Наноматериалы для терапии, диагностики и мониторинга результатов лечения". Устный доклад.

57. Бражник, К.И. (2015) Многопараметрическая диагностика онкологических заболеваний человека с помощью суспензионных систем на основе микросфер, кодированных флуоресцентными нанокристаллами. Научная сессия НИЯУ МИФИ-2015, 16–21 февраля 2015 г. Конференция "Наука о жизни (высокотехнологическая медицина)", секция "Наноматериалы для терапии, диагностики и мониторинга результатов лечения". Устный доклад.

56. Олейников, В.А. (2015) Новые инструментальные подходы в био-нанотехнологии. Научная сессия НИЯУ МИФИ-2015, 16–21 февраля 2015 г. Конференция "Наука о жизни (высокотехнологическая медицина)", секция "Наноматериалы для терапии, диагностики и мониторинга результатов лечения". Устный доклад.

55. Чистяков, А.А. (2015) Процессы переноса электронного возбуждения при одно- и двухфотонном возбуждении бионаногибридных структур, созданных на базе полупроводниковых квантовых точек и пурпурных мембран. Научная сессия НИЯУ МИФИ-2015, 16–21 февраля 2015 г. Конференция "Наука о жизни (высокотехнологическая медицина)", секция "Наноматериалы для терапии, диагностики и мониторинга результатов лечения" Устный доклад.

54. Билан, Р.С. (2015) Высокоориентированные конъюгаты однодоменных антител и полупроводниковых нанокристаллов для высокопроизводительной диагностики и мониторинга результатов лечения. Научная сессия НИЯУ МИФИ-2015, 16–21 февраля 2015 г. Конференция "Наука о жизни (высокотехнологическая медицина)", секция "Наноматериалы для терапии, диагностики и мониторинга результатов лечения" Устный доклад.

53. Мочалов, К.В. (2015) Сканирующая ближнепольная оптическая нанотомография – уникальный метод многопараметрического 3D-наномасштабного исследования композитных и биоматериалов. Научная сессия НИЯУ МИФИ-2015, 16–21 февраля 2015 г. Конференция "Наука о жизни (высокотехнологическая медицина)", секция "Наноматериалы для терапии, диагностики и мониторинга результатов лечения" Устный доклад.

52. Krivenkov, V.A., Samokhvalov, P.S., Linkov, P.A., Prokhorov, S.D., Martynov, I.L., Chistyakov, A.A., Nabiev, I. (2015) Effects of surface ligands and solvents on quantum dot photostability under pulsed UV laser irradiation. Conference/exhibition SPIE Optics + Optoelectronics 2015. Prague, Czech Republic | April 13, 2015. Oral presentation.

51. Nabiev, I. (2014) Nano-bio hybrid materials with the energy transfer properties. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Устный доклад.

50. Samokhvalov, P., Linkov, P., Nabiev, I. (2014) Modeling of quantum dot growth: Towards rational development of nanomaterials with predictable properties. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Устный доклад.

49. Samokhvalov, P., Linkov, P., Nabiev, I. (2014) High quantum yield CdSe/ZnS/CdS/ZnS multishell quantum dots for applications in biosensing and optoelectronics. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Устный доклад.

48. Grinevich, R., Rousserie, G., Brazhnik, K., Even-Desrumeaux, R., Reveil, B., Tabary, T., Chames, P., Baty, D., Cohen, J.H.M., Nabiev, I., Sukhanova, A. (2014) Detection of carcinoembryonic antigen on colon cancer cells using single-domain antibodies and quantum dots. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Стендовый доклад.

47. Solovyeva, D., Chistyakov, A., Lukashev, E., Mochalov, K., Oleinikov, V., Nabiev, I. (2014) Silver nanoparticles strongly affect the properties of Halobacterium salinarum photosensitive purple membranes containing the membrane protein bacteriorhodopsin. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Стендовый доклад.

46. Oleinikov, V., Generalova, A., Sizova, S., Mochalov, K., Nabiev, I., Zubov, V. (2014) Fluorescent pH and temperature sensors based on hybrid nanoparticles. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Стендовый доклад.

45. Dayneko, S., Lypenko, D., Linkov, P., Tameev, A., Martynov, I., Samokhvalov, P., Chistyakov, A. (2014) Application of Quantum dots CdSe/ZnS in modern LED technology. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Стендовый доклад.

44. Dayneko, S., Samokhvalov, P., Martynov, I., Tameev, A., Tedoradze, M., Chistyakov, A., Nabiev, I. (2014) Hybrid structures based on organic semiconductors and CdSe quantum dots for photovoltaic applications. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Стендовый доклад.

43. Dovzhenko, D.S., Martynov, I.L., Samokhvalov, P.S., Eremin, I.S., Kotkovskii, G.E., Chistyakov, A.A. (2014) Organic polymer and quantum dot photoluminescence spectra modulation with porous silicon microcavity. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Стендовый доклад.

42. Krivenkov, V., Samokhvalov, P., Solovyeva, D., Grinevich, R., Chistyakov, A., Nabiev, I. (2014) Two-photon-induced Förster resonance energy transfer in a hybrid material engineered from semiconductor quantum dots and the membrane protein bacteriorhodopsin. "Наука будущего". Первая международная научная конференция. С.-Петербург, 17-20 сентября 2014 г. Стендовый доклад.

41. Linkov, P.A.,Samokhvalov, P.S., Nabiev, I.R. (2014) CdSe/ZnS/CdS/ZnS multishell quantum dots with a fluorescence quantum yield reaching 100%. XII International Conference on Nanostructured Materials (NANO 2014), Section: Biological and Biomedical Nanomaterials, July 13–18, 2014, Moscow, Russia. Oral presentation.

40. Krivenkov, V.A., Samokhvalov, P.S., Linkov, P.A., Solovyeva, D.O., Kotkovskiy, G.E., Chistyakov, A.A., Nabiev, I.R. (2014) Surface ligands affect photoinduced degradation of the quanyum dots optical performance SPIE Photonics Europe, Conference 9126 Nanophotonics, Brussels, Belgium, 14 - 17 April 2014 Paper No. 9126-136.

39. Dovzhenko, D.S., Martynov, I.L., Samokhvalov, P.S., Eremin I.S., Kotkovskiy, G.E., Sipailo, I.P., Chistyakov, A.A. (2014) Photoluminescence of CdSe/ZnS quantum dots in a porous silicon microcavity. SPIE Photonics Europe, Conference 9126 Nanophotonics, Brussels, Belgium, 14 - 17 April 2014 Paper No. 9126-137.

38. Brazhnik, K., Grinevich, R., Efimov, A.E., Nabiev, I., Sukhanova, A. (2014) Development and potential applications of microarrays based on fluorescent nanocrystal-encoded beads for multiplexed cancer diagnostics. SPIE Photonics Europe, Conference 9129 Biophotonics: Photonic Solutions for Better Health Care, Brussels, Belgium, 14 - 17 April 2014 Paper No. 9129-86. Invited Paper.

37. Sukhanova, A., Rakovich, Yu.P., Oleinikov, V.A., Nabiev, I. (2014) Large nonlinear and linear optical responses in a hybrid nano-biomaterial engineered from bacteriorhodopsin and semiconductor quantum dots. SPIE Photonics West International Conference, 1 - 6 February 2014, The Moscone Center San Francisco, California, US. Paper No. 8955-37, Tracking No. PW14B-BO501-60. Invited paper.

36. Samokhvalov, P., Linkov, P., Michel, J., Molinari, M., Nabiev, I. (2014) Photoluminescence quantum yield of CdSe-ZnS/CdS/ZnS core-multishell quantum dots approaches 100% due to enhancement of charge carrier confinement. SPIE Photonics West International Conference, 1 - 6 February 2014, The Moscone Center San Francisco, California, US. Paper No. 8955-28, Tracking No. PW14B-BO501-41. Invited paper.

35. Solovyeva, D. Photovoltaic Cells Engineered from Purple Membranes of Halophilic Bacteria and Quantum Dots (http://sb6.biobricks.org/speaker/daria-solovyeva/) SB6.0: The Sixth International Meeting on Synthetic Biology. July 2013. http://sb6.biobricks.org/ Oral presentation.

34. Sukhanova, A., Bouchonville, N., Le Cigne, A., Molinari, M., Linkov, P., Samokhvalov, P.,  Oleinikov, V., Nabiev, I. Biophotonics with nano-bio hybrid material with controlled FRET efficiency engineered from quantum dots and membrane protein bacteriorhodopsin. International Workshop "Laser Physics", Prague, Czech Republic, July 2013. Invited paper.

33. Mochalov, K., Bobrovsky, A., Efimov, A., Oleinikov, V., Linkov, P., Samokhvalov, P., Sukhanova, A., Nabiev, I. Circularly polarized emission from cholesteric liquid crystal material doped with quantum dots can be controlled both optically and electrically. International Workshop "Laser Physics", Prague, Czech Republic, July 2013. Oral presentation.

32. Efimov, A., Mochalov, K., Bobrovsky, A., Agapov, I.I., Chistyakov, A.A., Oleinikov, V.A.,   Nabiev, I. Combined scanning probe tomography and optical imaging technique as a novel tool for 3D-characterization of biophotonic and nanophotonic materials. International Workshop "Laser Physics", Prague, Czech Republic, July 2013. Oral presentation.

31. Solovyeva, D., Lukashev, E., Linkov, P., Samokhvalov, P., Dayneko, S., Zaitsev, S., Oleinikov, V.,  Shemetov, A., Sukhanova, A., Nabiev, I., Chistyakov, A.A. Photovoltaic cells engineered from purple membranes of Halophilic bacteria and semiconductor quantum dots. International Workshop "Laser Physics", Prague, Czech Republic, July 2013. Oral presentation.

30. Oleinikov, V.A., Mochalov, K.E., Artemyev, M.V., Chistyakov, A.A., Sukhanova, A.V., Nabiev, I.R. Nanohybrid systems based on antibodies and quantum dots for proteomics and diagnostics. VI Russian Symposium "Belki i peptidy" [Proteins and Peptides; in Russian], Ufa, 11-15 June 2013, Oral presentation.

29. Mochalov, K.E., Efimov, A.E., Bobrovsky, A.Yu., Agapov, I.I., Chistyakov, A.A., Oleinikov, V.A., Nabiev, I. (2013) High-resolution 3D structural and optical analyses of hybrid or composite materials by means of scanning probe microscopy combined with the ultramicrotome technique: an example of application to engineering of liquid crystals doped with fluorescent quantum dots. SPIE Microtechnologies. Integrated Photonics: Materials, Devices and Applications II, 24-26 April 2013, Grenoble, France. Invited paper. 

28. Oleinikov, V. A., Sukhanova, A., Generalova, A. N., Sizova, S. V., Mochalov, K. E., Chistyakov, A. A., Artemyev, M. V., Nabiev, I. Nanoprobes on the basis of fluorescent semiconductor nanocrystals for bioassays and biosensing. 38th FEBS Congress, Saint Petersburg, Russia, July 6–11, 2013. Oral presentation.

27. Nabiev, I., Sukhanova, A. (2013) Multifunctional quantum-based diagnostic toolkits.  International Workshop: Translational oncology for novel nanoparticle-based diagnostic toolkits, 11 June 2013, Göttingen, Germany. Invited paper.

26. Krivenkov, V.A., Solovyeva, D.O., Linkov, P.A., Nabiev, I.R., Chistyakov, A.A. Effect of highly intense laser radiation on the spectral characteristics of semiconductor quantum dots. VII International Conference of Young Scientists and Specialists "Optika-2013" [Optics 2013; in Russian], October 14–18, 2013, St. Petersburg, Russia. http://conf-opt.ifmo.ru/. Invited paper.

25. Dayneko, S.V., Martynov, I.L., Chistyakov, A.A., Samokhvalov, P.S., Tameev, A.R., Rakovich, Yu.P., Nabiev, I.R. (2013) Hybrid structures based on semiconductor quantum dots in a polymeric matrix: Luminescent and photovoltaic properties. VIIInternational Conference of Young Scientists and Specialists "Optika-2013" [Optics 2013; in Russian], October 14–18, 2013, St. Petersburg, Russia. http://conf-opt.ifmo.ru/. Invited paper. 

24. Nabiev, I., Sukhanova, A. Two-photon imaging with diagnostic nanoprobes and single domain antibodies against cancer biomarkers.  3rd P3AGI Imaging Workshop, 12-13 June 2013, Göttingen, Germany. http://www.p3agi.eu/page.php?38. Invited paper.

23. Hafian, H., Sukhanova, A., Chames, P., Baty, D., Pluot, M., Cohen, J.H.M., Nabiev, I., Millot, J.M. (2012) Bi-photon imaging and diagnostics with the ultra-small diagnostic probes engineered from semiconductor nanocrystals and single-domain antibodies. Global Congress on Nanosystems in Engineering and Medicine: Nano-Bio-Info Convergence, 10–13 Sep 2012, Incheon, Republic of Korea. Invited paper.

22. Sukhanova, A., Poly, S., Shemetov, A., Nabiev, I. (2012) Quantum dots induce charge-specific amyloid-like fibrillation of insulin at physiological conditions. Global Congress on Nanosystems in Engineering and Medicine: Nano-Bio-Info Convergence, 10–13 Sep 2012, Incheon, Republic of Korea. Invited paper.

21. Bouchonville, N., Molinari, M., Sukhanova, A., Troyon, M., Nabiev, I. (2012) Semiconductor quantum dots affect the fluidity of Halobacterium salinarum purple membranes through disruption of bacteriorhodopsin trimer organization. Global Congress on Nanosystems in Engineering and Medicine: Nano-Bio-Info Convergence, 10–13 Sep 2012, Incheon, Republic of Korea. Invited paper.

20. Shemetov, A., Nabiev, I., Sukhanova, A. (2012) Quantum dots as fluorescent probes for advanced imaging. World Molecular Imaging Congress (WMIC), 5-8 Sep 2012, Dublin, Ireland. Invited paper.

19. Bouchonville, N., Le Cigne, A., Sukhanova, A., Saab, M.-b., Troyon, M., Molinari, M., Nabiev, I. Controlled FRET efficiency in nano-bio hybrid materials made from semiconductor quantum dots and bacteriorhodopsin. SPIE Congress on Nanoscience and Engineering, Section of Biosensing and Nanomedicine II, San Diego, August 2012. Invited paper.

18. Generalova, A., Oleinikov, V., Sukhanova, A., Artemyev, M., Zubov, V., Nabiev, I. Quantum dot-containing polymer particles with thermosensitive fluorescence. SPIE Congress on Nanoscience and Engineering, Section of Biosensing and Nanomedicine II, San Diego, August 2012. Invited paper.

17. Oleinikov, V., Bouchonville, N., Molinari, M., Sizova, S., Mochalov, K., Chistyakov, A., Sukhanova, A., Schapov, A., Artemyev, M., Lukashev, E., Nabiev, I. Extension of the spectral range of bacteriorhodopsin functional activity by energy transfer from quantum dots. SPIE Congress on Nanoscience and Engineering, section Nanobiosystems: Processing, Characterization, and Applications V, San Diego, August 2012.

16. Mochalov, K., Bobrovsky, A., Oleinikov, V., Sukhanova, A., Efimov, A., Shibaev, V., Nabiev, I.  Novel cholesteric materials doped with CdSe/ZnS quantum dots with photo- and electro-tunable circularly polarized emission. SPIE Congress on Nanoscience and Engineering, section Liquid Crystals XVI, San Diego, August 2012.

15. Artemyev, M., Krutokhvostov, R., Melnikau, D., Oleinikov, V., Sukhanova, A.,Nabiev, I. Low-field magnetic circular dichroism in silver and gold colloidal nanoparticles of different size, shape, and aggregation. SPIE Congress on Nanoscience and Engineering, section Plasmonics: Metallic Nanostructures and Their Optical Properties X, San Diego, August 2012.

14. Dayneko, S.V., Tameev, A.R., Tedoradze, M.G., Artemyev, M.V., Nabiev, I., Chistyakov, A.A.  Nanohybrid photovoltaic structures based on PCDTBT polymer and nanorods. Sixth Internationlal Meeting on Molecular Electronics, Grenoble, Organic Electronics and Spintronics: Materials and Devices, December 2012.

13. Dayneko, S.V., Tedoradze, M.G., Artemyev, M.V., Nabiev, I., Chistyakov, A.A. Hybrid heterostructures from organic semiconductors and semiconductor quantum dots for advanced photovoltaic applications. SPIE Congress on Solar Energy and Technology, section Next Generation (Nano) Photonic and Cell Technologies for Solar Energy Conversation III, San Diego, August 2012.

12. Zaitsev, S.Yu., Solovyeva, D.O., Nabiev, I. Organized films based on photosensitive membrane proteins as the key elements of nano-bio hybrid structures. 3-rd Russian-Hellenic Symposium. Bionanotox-2012, Biomaterials and bionanomaterials: recent problems and safety issues. Greece, May 2012.

11. Solovyeva, D.O., Nabiev, I., Zaitsev, S.Yu. Nano-biomaterials based on bacteriorhodopsin monolayers. Humboldt Colloquium “The Role of Fundamental Science in the Society", Moscow, Russia, 31 May - 2 June 2012.

10. Zaitsev, S.Yu., Solovyeva, D.O., Nabiev, I. Monolayers based on bacteriorhodopsin as promising nanobiomaterials. 3-rd Russian-Hellenic Symposium. Bionanotox-2012 “Biomaterials and bionanomaterials: recent problems and safety issues”. Greece, May 2012.

9. Solovyeva, D.O., Zaitsev, S.Yu. Ultrathin films of the bacteriorhodopsin as promising photosensitive nanobiomaterials. The 3-rd International Symposium “Molecular Photonics.” St. Petersburg, June 2012. Oral presentation.

8. Zaitsev, S.Yu., Solovyeva, D.O. Nanobiohybrid structures based on organized films of the photosensitive membrane proteins. The 3-rd International Symposium “Molecular Photonics”. St. Petersburg, June 2012. Oral presentation.

7. Solovyeva, D.O. Nano-bio hybrid systems with the energy transfer properties engineered from purple membranes of bacteria Halobacterium halobium. The 9th  International PhD Student Symposium “Horizons in Molecular Biology”. Germeny, Goettingen. October 2012. Invited paper.

6. Sukhanova A., Even-Desrumeaux K., Millot J.-M., Chames P.; Baty D., Artemyev M., Oleinikov V., Cohen J.H.M., Nabiev I. Oriented conjugates of monoclonal and single-domain antibodies with quantum dots for flow cytometry and immunohistochemistry diagnostic applications. SPIE Conference: Colloidal Nanocrystals for Biomedical Applications VII, San Francisco, January 2012. Invited paper.

5. Artemyev, M. Resonant energy transfer in the complexes of semiconductor nanocrystals and organic dye molecules. International Conference “Fundamental and Applied Nanoelectromagnetics,” Belarusian State University, Minsk, Belarus, May 2012. Invited paper.

4. Oleinikov, V.A., Mochalov, K.E., Artemyev, M.V., Sizova, S.V., Generalova, A.N., Sukhanova, A.V., Nabiev, I.R. Quantum dots, fluorophores of a novel type, and their hybrids with biomolecules: Biomedical aplications. Conference "Breslerovskie chteniya III. Molekulyarnaya genetika, biofizika i meditsina segodnya"[Bresler Lectures III: Molecular Genetics, Biophysics, and Medicine Today; in Russian]. St. Petersburg: St. Petersburg Research Center, Russian Academy of Sciences, 2011, 23-24, Invited paper.

3. Oleinikov, V.A., Nano–bio hybrid materials based on quantum dots for detection, imaging, and sensing. 4-й Съезд Биофизиков России [4th Congress of Russian Biophysicists; in Russian], 2012, Invited paper.

2. Sukhanova T., Manokhina V., Prokhorov A., Oleinikov V. Dihydroquercetin-modified polyethilenimine as material for tissue engineering. 22nd IUBMB Congress/37th FERS Congress.

1. Generalova A.N., Zarifullina M.M., Oleinikov V.A., Artemyev M.V., Zubov V.P. Polymer Particles with Stimuli-Sensitive Fluorescence. Zing Conferences / Polymer Chemistry Conference 2012.

 

 Патенты и другие объекты интеллектуальной собственности

20. Самохвалов П.С., Линьков П.А. Способ коллоидного синтеза фотолюминесцентных наночастиц сверхмалого размера структуры ядро/оболочка. Изобретение. Заявка на патент. Рег. № 2016151342. Дата подачи заявки: 27/12/2016.

19. Мочалов К.Е., Ефимов А.Е., Соколов Д.Ю., Набиев И.Р. Сканирующий зондовый нанотомограф с модулем оптического анализатора. Изобретение. Заявка на патент. Рег. № 2016149213. Дата подачи заявки: 14/12/2016.

18. Суханова А.В., Билан Р.С., Терехин В.В., Набиев И.Р. Способ получения аналитической тест-системы на основе суспензионных микрочипов для детекции маркеров заболеваний. Изобретение. Заявка на патент. Рег. № 2016149212. Дата подачи заявки: 14/12/2016.

17. Соколов П.М., Суханова А.В., Бозрова С.В., Набиев И.Р. Способ биологической визуализации. Изобретение. Заявка на патент. Рег. № 2016149211. Дата подачи заявки: 14/12/2016.

16. Соколов П.М., Суханова А.В., Набиев И.Р. Способ визуализации и направленного разрушения раковых клеток. Изобретение. Заявка на патент. Рег. № 2016149210. Дата подачи заявки: 14/12/2016.

15. Вохминцев К.В., Довженко, Д.С. Регенерируемый нанопроволочный биосенсор для регистрации маркеров заболеваний. Изобретение. Заявка на патент. Рег. № 2016149208. Дата подачи заявки: 14/12/2016.

14. Самохвалов П.С. Nanocrystal Editor. Программа для ЭВМ. Рег. № 2015611164. Дата государственной регистрации: 26.01.2015 г.

13. Набиев И.Р., Самохвалов П.С. Универсальный адаптер для использования микрочипов планарного типа в планшетных ридерах для иммунофлуоресцентного анализа. Патент РФ № 172401. Зарегистрирован в Государственном реестре полезных моделей РФ 06.07.2017.

12. Набиев И.Р., Суханова А.В., Терехин В.В. Способ создания наборов магнитных флуоресцентных микросфер. Изобретение. Регистрационный № 2016125966. Дата поступления: 29.06.2016.

11. Довженко Д.С., Билан Р.С., Самохвалов П.С., Вохминцев К.В., Суханова А.В., Набиев И.Р. Способ создания регенерируемого биосенсора на основе комплекса фотонного кристалла с аффинными молекулами. Изобретение. Заявка на патент. Рег. № РИД: 616012810106. Дата регистрации РИД: 28/01/2016.

10. Билан Р.С., Суханова А.В., Набиев И.Р. Способ создания наборов микросфер, оптически кодированных флуоресцентными нанокристаллами и несущих на своей поверхности распознающие биологические молекулы. Патент РФ № 2624853. Зарегистрирован в Государственном реестре изобретений РФ 07.07.2017.

9. Дайнеко С.В., Чистяков А.А., Никитенко В.Р., Набиев И.Р., Самохвалов П.С., Лыпенко Д.А., Дмитриев А.В., Мальцев Е.И., Носова Г.И., Березин И.А., Якиманский А.В. Гибридная светодиодная структура на основе органических полупроводников и полупроводниковых наночастиц. Полезная модель. Заявка № 2015155375/28(085439). Дата подачи заявки: 23.12.2015. Решение о выдаче патента принято 18.02.2016.

8. Генералова А.Н., Суханова Т.В., Сизова С.В., Манохина В.В., Мочалов К.Е., Олейников В.А., Набиев И.Р. Способ формирования многофункциональных наносистем. Патент РФ № 2532559. Зарегистрирован в Государственном реестре изобретений РФ 10.09.2014.

7. Суханова А.В., Набиев И.Р. Способ создания наноразмерной диагностической метки на основе конъюгатов наночастиц и однодоменных антител. Патент РФ № 2560699. Зарегистрирован в Государственном реестре изобретений РФ 22.07.2015.

6. Самохвалов П.С., Линьков П.А., Набиев И.Р. Производство сплавных квантовых точек типа ядро/оболочка, имеющих состав CdSSe/ZnS. Секрет производства. Дата регистрации секрета производства: 08.07.2013.

5. Самохвалов П.С., Линьков П.А., Артемьев М.В., Набиев И.Р. Производство люминесцентных квантовых точек типа ядро/оболочка, имеющих состав CdSe/ZnS. Секрет производства. Дата регистрации секрета производства: 08.07.2013.

4. Самохвалов П.С., Набиев И.Р. Nanocrystal Builder. Программа для ЭВМ. Рег. № 2013661188. Дата государственной регистрации: 29.11.2013 г.

3. Котковский Г. Е., Мартынов И. Л., Сычев А. В., Чистяков А. А., Громов Е. В., Передерий А. Н., Тугаенко А. В., Цыбин А. С. Способ получения и анализа ионов аналита. Патент РФ №2434225 от 20.11.2011. Поставлен на учет в НИЯУ МИФИ в 2012.

2. Котковский Г. Е., Мартынов И. Л., Сычев А. В., Чистяков А. А., Громов Е. В., Передерий А. Н., Тугаенко А. В., Цыбин А. С., Чистяков А.А. Устройство для получения и анализа ионов аналита. Патент РФ №2434226 от 20.11.2011. Поставлен на учет в НИЯУ МИФИ в 2012.

1. Суханова Т.В., Щапов А.Ф., Манохина В.В., Набиев И.Р., Олейников В.А., Сизова С.В. Способ включения квантовых точек методом соосаждения в пористые частицы карбоната кальция. Патент РФ № 2509057. Зарегистрирован в Государственном реестре изобретений РФ 10.03.2014.

 
 
 
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