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Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
Complete List of Publications in Peer-Reviewed Journals (312 publications), Conference
Communications (266 published communications), Patents (27) and Know-How (4)
Web of Science / Google Scholar quantitative data as of April 9, 2021*
Results found
(Web of Science): 354
Total number of citations
(Web-of-Science / Google Scholar): 7 123 / 9 592
Average number of citations per item
(Web of Science): 20.12
Total number of citations of the 10 best publications
(Web-of-Science / Google Scholar): 2 353 / 3 218
Average number of citations per item for the 10 best publications
(Web-of-Science / Google Scholar): 235.3 / 321.8
Hirsch's h-index (Web of Science) 46
Hirsch's h-index (Google Scholar) 54
* The best publications are indicated with asterisks in the list below.
Peer-Reviewed Publicaitons
2021
312. Krivenkov, V., Dovzhenko, D., Kriukova, I., Samokhvalov, P., Saanchez-Iglesias, A.,
Grzelczak, M., Nabiev, I., Rakovich, Y. (2021) Cavity-enhanced photoluminescence of
semiconductor quantum dot thin films under two-photon excitation. In: A. Adibi, S.-Y. Lin, A.
Scherer, eds. Photonic and Phononic Properties of Engineered Nanostructures XI, Proceedings of
SPIE, 11694, 116940W.
311. Krivenkov, V., Samokhvalov, P., Nabiev, I., Rakovich, Y. (2021) Quantum dot-based
plasmon-exciton emitters with improved one-and two-photon emission properties. Photonic and
Phononic Properties of Engineered Nanostructures XI, Proceedings of SPIE, 11694, 116941Q.
310. Nifontova, G., Krivenkov, V., Zviagzne, M., Efimov, A., Korostylev, E., Zarubin, S., Karaulov,
A., Nabiev, I., Sukhanova, A. (2021) Hybrid nanoparticle-doped polyelectrolyte microcapsules with
controlled photoluminescence for bioimaging applications. ANNIC 2021 – Applied
Nanotechnology and Nanoscience International Conference, Book of Abstracts, 101–102.
309. Kriukova, I., Samokhvalov, P., Nabiev, I. (2021) Hybrid luminescent systems on the base of
PbS nanocrystals and freestanding porous silicon microcavities in the near-infrared range. ANNIC
2021 – Applied Nanotechnology and Nanoscience International Conference, Book of Abstracts,
75.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
308. Kalenichenko, D., Nifontova, G., Sukhanova, A., Nabiev, I. (2021) Designing functionalized
polyelectrolyte microcapsules for cancer-cell-targeting and cancer treatment. ANNIC 2021 –
Applied Nanotechnology and Nanoscience International Conference, Book of Abstracts, 99–100.
307. Tsoy, T., Karaulov, A., Nabiev, I., Sukhanova, A. (2021) Estimating the effect of
semiconductor quantum dot surface charge on their interaction with proteins. ANNIC 2021 –
Applied Nanotechnology and Nanoscience International Conference, Book of Abstracts, 207.
306. Rakovich, Y., Krivenkov, V.A., Samokhvalov, P., Sánchez-Iglesias, A., Grzelczak, M.,
Nabiev, I. (2021) Strong increase in the effective two-photon absorption cross-section of excitons in
quantum dots due to the nonlinear interaction with localized plasmons in gold nanorods. Nanoscale,
13 (8), 4614–4623. IF=6.895.
305. Krivenkov, V.A., Samokhvalov, P., Nabiev, I., Rakovich, Y.P. (2021) pH-Sensing platform
based on light−matter coupling in colloidal complexes of silver nanoplates and J-aggregates.
Journal of Physical Chemistry C, 125 (3), 1972–1979. IF=4.189.
2020
304. Nabiev, I.R. (2020) Polariton-assisted donor–acceptor role reversal in resonant energy transfer
between organic dyes strongly coupled to electromagnetic modes of a tuneable microcavity. The 5th
International Symposium and International School for Young Scientists on “Physics,
Engineering and Technologies for BioMedicine”, Book of Abstracts, 44–45.
303. Linkov, P., Samokhvalov, P., Grokhovsky, S., Laronze-Cochard, M., Sapi, J., Nabiev, I.
(2020) Selection of optimal chromatography medium for purification of quantum dots and their
bioconjugates. Chemistry of Materials, 32 (21), 9078–9089. IF=9.567.
302. Dovzhenko, D.S., Krivenkov, V.A., Kriukova, I.S., Samokhvalov, P.S., Karaulov, A.V.,
Nabiev, I.R. (2020) Enhanced spontaneous emission from two-photon-pumped quantum dots in a
porous silicon microcavity. Optics Letters, 45 (19), 5364–5367. IF=3.714.
301. Kriukova, I.S., Krivenkov, V.A., Samokhvalov, P.S., Nabiev, I.R. (2020) Weak coupling
between light and matter in photonic crystals based on porous silicon responsible for the
enhancement of fluorescence of quantum dots under two-photon excitation. JETP Letters, 112 (9),
537–542. IF=1.399.
300. Krivenkov, V., Samokhvalov, P., Nabiev, I., Rakovich, Yu. (2020) Synergy of excitation
enhancement and the Purcell effect for strong photoluminescence enhancement in a thin-film hybrid
structure based on quantum dots and plasmon nanoparticles. Journal of Physical Chemistry Letters,
11 (19), 8018–8025. IF=6.71.
299. Dovzhenko, D., Martynov, I., Samokhvalov, P., Osipov, E., Lednev, M., Chistyakov, A.,
Karaulov, A., Nabiev, I. (2020) Enhancement of spontaneous emission of semiconductor quantum
dots inside one-dimensional porous silicon photonic crystals. Optics Express, 28 (15), 22705–
22717. IF=3.669.
298. Nifontova, G., Krivenkov, V., Zvaigzne, M., Samokhvalov, P., Efimov, A.E., Agapova, O.I.,
Agapov, I.I., Korostylev, E., Zarubin, S., Karaulov, A., Nabiev, I., Sukhanova, A. (2020)
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
Controlling charge transfer from quantum dots to polyelectrolyte layers extends prospective
applications of magneto-optical microcapsules. ACS Applied Materials & Interfaces,12 (32),
35882–35894. IF=8.758.
297. Krivenkov, V., Dyagileva, D., Samokhvalov, P., Nabiev, I., Rakovich, Yu. (2020) Effect of
spectral overlap and separation distance on exciton and biexciton quantum yields and radiative and
nonradiative recombination rates in quantum dots near plasmon nanoparticles. Annalen der Physik,
2000236. IF=3.317.
296. Krivenkov, V., Samokhvalov, P., Dyagileva, D., Nabiev, I. (2020) Absolute two-photon
absorption cross-sections of single-exciton states in semiconductor nanocrystals. In: Andrews, D.L.,
Bain, A.J., Kauranen, M., Nunzi, J.-M., eds. Nanophotonics VIII. Proc. of SPIE, 11345, 113451S.
DOI: 10.1117/12.2556259.
295. Alexandrov, A., Zvaigzne, M., Lypenko, D., Nabiev, I., Samokhvalov, P. (2020). Al-, Ga-,
Mg-, or Li-doped zinc oxide nanoparticles as electron transport layers for quantum dot light-
emitting diodes. Scientific Reports, 10, 7496. IF=3.998. FULL TEXT AVAILABLE.
294. Nifontova, G., Ramos-Gomes, F., Alves, F., Nabiev, I., Sukhanova, A. (2020) Stimulus-
sensitive theranostic delivery systems based on microcapsules encoded with quantum dots and
magnetic nanoparticles. In: A. Fontes, B.S. Santos, eds. Quantum Dots: Applications in Biology
(Methods in Molecular Biology, 2135). Humana Press, 3rd edition, chapter 11, 199–212.
293. Tsoy, T., Karaulov, A., Nabiev, I., Sukhanova, A. (2020) Multiplexed detection of cancer
serum antigens with a quantum dot-based lab-on-bead system. In: A. Fontes, B.S. Santos, eds.
Quantum Dots: Applications in Biology (Methods in Molecular Biology, 2135). Humana Press, 3rd
edition, chapter 13, 225–236.
292. Ayadi, N., Lafont, F., Charlier, C., Benhelli-Mokrani, H., Sokolov, P., Sukhanova, A., Fleury,
F., Nabiev, I. (2020) Comparative advantages and limitations of quantum dots in protein array
applications. In: A. Fontes, B.S. Santos, eds. Quantum Dots: Applications in Biology (Methods in
Molecular Biology, 2135). Humana Press, 3rd edition, chapter 16, 259–274.
291. Kryukova, I., Dovzhenko, D.S., Rakovich, Yu.P., Nabiev, I.R. (2020) Enhancement of the
photoluminescence of semiconductor nanocrystals in transfer-printed microcavities based on
freestanding porous silicon photonic crystals. Journal of Physics: Conference Series, 1439,
012018.
290. Kryukova, I., Dovzhenko, D., Rakovich, Yu., Nabiev, I. (2020) Enhancement of the quantum
dot photoluminescence using transfer-printed porous silicon microcavities. Journal of Physics:
Conference Series, 1461, 012076.
289. Krivenkov, V., Samokhvalov, P.S., Dyagileva, D., Karaulov, A., Nabiev, I.R. (2020)
Determination of the single-exciton two-photon absorption cross-sections of semiconductor
nanocrystals through the measurement of saturation of their two-photon-excited photoluminescence.
ACS Photonics, 7 (3), 831–836. IF=6.864.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
288. Kage, D., Katrin Hoffmann, K., Nifontova, G., Krivenkov, V., Sukhanova, A., Nabiev, I.,
Resch-Genger, U. (2020) Tempo-spectral multiplexing in flow cytometry with lifetime detection
using QD-encoded polymer beads. Scientific Reports, 10, 653. IF=3.998.
2019
287. Nifontova, G., Kalenichenko, D., Baryshnikova, M., Gomes, F.R., Alves, F., Karaulov, A.,
Nabiev, I., Sukhanova, A. (2019) Biofunctionalized polyelectrolyte microcapsules encoded with
fluorescent semiconductor nanocrystals for highly specific targeting and imaging of cancer cells.
Photonics, 6 (4), 117. IF=2.140.
286. Velic, D., Charlier, C., Popova, M., Jaunet-Lahary, T., Bouchouireb, Z., Henry, S., Weigel, P.,
Masson, J.-Y., Laurent, A., Nabiev, I., Fleury, F. (2019) Interactions of the Rad51 inhibitor DIDS
with human and bovine serum albumins: Optical spectroscopy and isothermal calorimetry
approaches. Biochimie, 167, 187–197. IF=3.413.
285. Dovzhenko, D., Mochalov, K., Vaskan, I., Kryukova, I., Rakovich, Yu., Nabiev, I. (2019)
Polariton-assisted emission of strongly coupled organic dye excitons in a tunable optical
microcavity. In: M.F.M. Costa, ed. Fourth International Conference on Applications of Optics
and Photonics. Proceedings of SPIE, 11207, 112072C.
284. Krivenkov, V., Samokhvalov, P., Sanchez-Iglesias, A., Grzelczak, M., Nabiev, I., Rakovich,
Yu. (2019) Modification of multiphoton emission properties of single quantum dot due to the long-
range coupling with plasmon nanoparticles in thin-film hybrid material. In: M.F.M. Costa, ed.
Fourth International Conference on Applications of Optics and Photonics. Proceedings of
SPIE, 11207, 1120728.
283. Sukhanova, A., Ramos-Gomes, F., Chames, P., Baty, D., Alves, F., Samokhvalov, P., Nabiev,
I. (2019) Nanophotonic tools based on the conjugates of nanoparticles with the single-domain
antibodies for multi-photon micrometastases detection and ultrasensitive biochemical assays. In:
M.F.M. Costa, ed. Fourth International Conference on Applications of Optics and Photonics.
Proceedings of SPIE, 11207, 112072A.
282. Nifontova, G., Baryshnikova, M., Ramos-Gomes, F., Alves, F., Nabiev, I., Sukhanova, A.,
(2019) Engineering of fluorescent biomaging tools for cancer cell targeting based on polyelectrolyte
microcapsules encoded with quantum dots. In: M.F.M. Costa, ed. Fourth International
Conference on Applications of Optics and Photonics. Proceedings of SPIE, 11207, 112072D.
281. Melnikau, D., Govyadinov, A.A., Sánchez-Iglesia, A., Grzelczak, M., Nabiev, I.R., Liz-
Marzán, L.M., Rakovich, Yu.P. (2019) Double Rabi splitting in a strongly coupled system of core–
shell Au@Ag nanorods and J-aggregates of multiple fluorophores. The Journal of Physical
Chemistry Letters, 10, 6137–6143. IF=6.71.
280. Sukhanova, A., Poly, S., Bozrova, S., Lambert, E., Ewald, E., Molinari, M., Karaulov, A.V.,
and Nabiev, I. (2019) Nanoparticles with a specific size and surface charge promote disruption of
the secondary structure and amyloid-like fibrillation of human insulin under physiological
conditions. Frontiers in Chemistry, doi: 10.3389/fchem.2019.00480. IF=3.693.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
279. Petrova, I., Konopsky, V., Nabiev, I., Sukhanova, A. (2019) Label-free flow multiplex
biosensing via photonic crystal surface mode detection. Scientific Reports, 9, 8745. IF=3.998.
278. Samokhvalov, P., Volodin, D., Bozrova, S., Dovzhenko, D., Zvaigzne, M., Linkov, P.,
Nifontova, G., Petrova, I., Sukhanova, A., Nabiev, I. (2019) Conversion of semiconductor
nanoparticles to plasmonic materials by targeted substitution of surface-bound organic ligands.
Technical Physics Letters, 45 (4), 317–320.
277. Krivenkov, V. Samokhvalov, P., Nabiev, I. (2019) Remarkably enhanced photoelectrical
efficiency of bacteriorhodopsin in quantum dot–purple membrane complexes under two-photon
excitation. Biosensors and Bioelectronics, 137, 117–122. IF=10.257.
276. Mochalov, K.E., Solovyeva, D.O., Vaskan, I.S., Nabiev, I.R. (2019) Scanning near-field
optical nanospectrophotometry: a new method for nanoscale measurements of the absorption spectra
of single nanoobjects. Technical Physics Letters, 45 (2), 138–141.
275. de Menezes, F.D., dos Reis, S.R.R., Pinto, S.R., Portilho, F.L., do Vale Chaves e Mello, F.,
Helal-Neto, E., da Silva de Barros, A.O., Alencar, L.M.R., de Menezes, A.S., Santos, C.C., Saraiva-
Souza, A., Perini, J.A., Machado, D.E., Felzenswalb, I., Araujo-Lima, C.F., Sukhanova, A., Nabiev,
I., Santos-Oliveira, R. (2019) Graphene quantum dots unraveling: Green synthesis, characterization,
radiolabeling with 99m
Tc, in vivo behavior and mutagenicity. Materials Science and Engineering C,
102, 405–414. IF=5.880.
274. Krivenkov, V.A., Samokhvalov, P.S., Nabiev, I. (2019) Two-photon-activated light energy
conversion in quantum dot–purple membrane hybrid material. In: Nonlinear Optics and
Applications XI, Proceedings of SPIE, 11026, 110260E. doi: 10.1117/12.2520856
273. Krivenkov, V.A., Samokhvalov, P.S., Chistyakov, A.A., Nabiev, I. (2019) Resonance energy
transfer from quantum dots to bacteriorhodopsin affects the saturation of two-photon absorption
under a pulsed femtosecond excitation. In: Nonlinear Optics and Applications XI, Proceedings of
SPIE, 11026, 1102615. doi: 10.1117/12.2520865
272. Linkov, P., Samokhvalov, P., Vokhmintcev, K., Zvaigzne, M., Krivenkov, V., Nabiev, I.
(2019) Optical properties of quantum dots with a core–multishell structure. JETP Letters, 109 (2),
112–115. IF=1.399.
271. Dovzhenko, D.S., Vaskan, I.S., Mochalov, K.E., Rakovich, Yu.P., Nabiev, I.R. (2019) Spectral
and spatial characteristics of the electromagnetic modes in a tunable optical microcavity cell for
studying hybrid light–matter states. JETP Letters, 109 (1), 12–17. IF=1.399.
270. Sokolov, P.M., Zvaigzne, M.A., Krivenkov, V.A., Litvin, A.P., Baranov, A.V., Fedorov, A.V.,
Samokhvalov, P.S., Nabiev, I.R. (2019) Graphene–quantum dot hybrid nanostructures with
controlled optical and photoelectric properties for solar cell applications. Russian Chemical
Reviews, 88 (4), 370–386. IF=4.750.
269. Dovzhenko, D., Mochalov, K., Vaskan, I., Kryukova, I., Rakovich, Y., Nabiev, I. (2019)
Polariton-assisted splitting of broadband emission spectra of strongly coupled organic dye excitons
in tunable optical microcavity. Optics Express, 27 (4), 4077–4089. IF=3.669.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
268. Nifontova, G., Ramos-Gomes, F., Baryshnikova, M., Alves, F., Nabiev, I., and Sukhanova, A.
(2019) Cancer cell targeting with functionalized quantum dot–encoded polyelectrolyte
microcapsules. Frontiers in Chemistry, 7:34. IF=3.693.
267. Krivenkov, V., Goncharov, S., Samokhvalov, P., Sánchez-Iglesias, A., Grzelczak, M., Nabiev,
I., Rakovich, Yu. (2019) Enhancement of biexciton emission due to long-range interaction of single
quantum dots and gold nanorods in a thin-film hybrid nanostructure. The Journal of Physical
Chemistry Letters, 10, 481–486. IF=6.71.
266. Nifontova, G., Efimov, A., Agapova, O., Agapov, I., Nabiev, I., Sukhanova, A. (2019)
Bioimaging tools based on polyelectrolyte microcapsules encoded with fluorescent semiconductor
nanoparticles: Design and characterization of the fluorescent properties. Nanoscale Research
Letters, 14:29. IF=3.581.
2018
265. Ushakova, E.V., Cherevkov, S., Volgina, D.-O. A., Zakharov, V.V., Komissarenko, F.E.,
Shcherbakov, A.A., Hogan, B.T., Baldycheva, A., Fedorov, A.V., Nabiev, I., Baranov, A.V. (2018)
From colloidal CdSe quantum dots to microscale optically anisotropic supercrystals through bottom-
up self-assembly. Journal of Materials Chemistry C, 6, 12904–12911. DOI:
10.1039/C8TC04780D. IF=7.059.
264. Krivenkov, V., Goncharov, S., Nabiev, I., Rakovich, Yu.P. (2018) Induced transparency in
plasmon–exciton nanostructures for sensing applications. Laser & Photonics Reviews, 13, 1800176.
DOI: 10.1002/lpor.201800176. IF=10.655.
263. Sukhanova A., Ramos-Gomes F., Alves F., Chames P., Baty D., Nabiev I. (2018) Advanced
nanotools for imaging of solid tumors and circulating and disseminated cancer cells. Optics and
Spectroscopy, 125 (5), 703–707.
262. Goncharov S.A., Krivenkov V.A., Samokhvalov P.S., Nabiev I., Rakovich Y.P. (2018)
Photoluminescence properties of thin-film nanohybrid material based on quantum dots and gold
nanorods. Optics and Spectroscopy, 125 (5), 726–730.
261. Krivenkov V.A., Samokhvalov P.S., Chistyakov A.A., Nabiev I. (2018) Quantum dots improve
photovoltaic properties of purple membranes under near-infrared excitation. Optics and
Spectroscopy, 125 (5), 747–750.
260. Onishchuk D.A., Pavlyuk A.S., Parfenov P.S., Litvin A.P., Nabiev I.R. (2018) Near infrared
LED based on PbS nanocrystals. Optics and Spectroscopy, 125 (5), 751–755.
259. Kuzishchin Y.A., Martynov I.L., Osipov E.V., Samokhvalov P.S., Chistyakov A.A., Nabiev
I.R. (2018) Optimization of excitation and detection modes to detect ultra-small amounts of
semiconductor quantum dots based on cadmium selenide. Optics and Spectroscopy, 125 (5), 760–
764.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
258. Kuzishchin, Y.A., Martynov, I.L., Osipov, E.V., Samokhvalov, P.S., Chistyakov, A.A.,
Nabiev, I.R. (2018) Comparison of fluorescence excitation modes for CdSe semi-conductor
quantum dots used in medical research. Bulletin of RSMU, 4. DOI: 10.24075/brsmu.2018.050.
257. Petrova, I.O., Konopsky, V.N., Sukhanova, A.V., Nabiev, I.R. (2018) Multiparametric
detection of bacterial contamination based on the photonic crystal surface mode detection. Bulletin
of RSMU, 4. DOI: 10.24075/brsmu.2018.047.
256. Lafont, F., Ayadi, N., Charlier, C., Weigel, P., Nabiev, I., Benhelli-Mokrani, H, Fleury, F.
(2018) Assessment of DNA-PKcs kinase activity by quantum dot–based microarray. Scientific
Reports, 8, 10968. IF=3.998.
255. Krivenkov, V., Samokhvalov, P., Zvaigzne, M., Martynov, I., Chistyakov, A., Nabiev, I.
(2018) Ligand-mediated photobrightening and photodarkening of CdSe/ZnS quantum dot
ensembles. Journal of Physical Chemistry C, 122 (27), 15761–15771. IF=4.189.
254. Volgina, D.A., Stepanidenko, E.A., Kormilina, T.K., Cherevkov, S.A., Dubavik, A., Baranov,
M.A., Litvin, A.P., Fedorov, A.V., Baranov, A.V., Takai, K., Samokhvalov, P.S., Nabiev, I.R.,
Ushakova, E.V. (2018) A study of the optical properties of CdZnSe/ZnS-quantum dot–Au-
nanoparticle complexes. Optics and Spectroscopy, 124 (4), 494–500.
253. Melnikau, D., Hendel, T., Linkov, P.A., Samokhvalov, P.S., Nabiev, I.R., Rakovich, Yu.P.
(2018) Energy transfer between single semiconductor quantum dots and organic dye molecules.
Zeitschrift für Physikalische Chemie, 232 (9–11), 1513–1526. IF=2.030.
252. Krivenkov, V.A., Samokhvalov, P.S., Chistyakov, A.A., Nabiev, I. (2018) Laser tuning of
resonance energy transfer efficiency in a quantum dot–bacteriorhodopsin nano–bio hybrid material.
In.: Andrews, D.L., Bain, A.J., Nunzi, J.-M., Ostendorf, A., eds. Nanophotonics VII. Proc. of
SPIE, 10672, 106720Z. doi: 10.1117/12.2306669
251. Mochalov, K.E., Vaskan, I.S., Dovzhenko, D.S., Rakovich, Yu.P., Nabiev, I.R. (2018) A
versatile tunable microcavity for investigation of light–matter interaction. Review of Scientific
Instruments. 89, 053105. IF=1.480.
250. Nabiev, I.R. (2018) Quantum dot conjugates in functional imaging and highly sensitive
biochemical assays. KnE Energy & Physics, 287–291. DOI 10.18502/ken.v3i2.1824
249. Samokhvalov, P.S., Linkov, P.A., Zvaigzne, M.A., Kosmynceva, A.V., Petrova, I.O.,
Krivenkov, V.A., Sukhanova, A.V., Nabiev, I.R. (2018) Optical properties of core–multishell
quantum dots. KnE Energy & Physics, 449–455. DOI 10.18502/ken.v3i2.1850
248. Zvaigzne, M.A., Martynov, I.L., Voronin, V.S., Bozrova, S.V., Vokhmincev, K.V., Goncharov,
S.A., Dovzhenko, D.S., Korenkova, A.V., Samokhvalov, P.S., Nabiev, I.R., Chistyakov, A.A.
(2018) Fine-tuning of silica coating procedure for preparation of biocompatible and bright PbS/SiO2
QDs. KnE Energy & Physics, 578–582. DOI 10.18502/ken.v3i2.1868
247. Vokhmintcev, K.V., Linkov, P.A., Samokhvalov, P.S., Nabiev, I.R. (2018) Two-stage ZnS
shell coating on the CuInS2 quantum dots for their effective solubilization. KnE Energy & Physics,
535–540. DOI 10.18502/ken.v3i2.1862
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
246. Linkov, P.A., Vokhmintcev, K.V., Samokhvalov, P.S., Laronze-Cochard, M., Sapi, J., Nabiev,
I.R. (2018) The effect of quantum dot shell structure on fluorescence quenching by acridine ligand.
KnE Energy & Physics, 194–201. DOI 10.18502/ken.v3i2.1813
245. Bozrova S.V., Baryshnikova M.A., Sokolova, Z.A., Nabiev, I.R., Sukhanova, A.V. (2018) In
vitro cytotoxicity of CdSe/ZnS quantum dots and their interaction with biological systems. KnE
Energy & Physics, 58–63. DOI 10.18502/ken.v3i2.1792
244. Nifontova, G.O., Sukhanova, A.V., Samokhvalov, P.S., Nabiev, I.R. (2018) Efficient encoding
of matrix microparticles with nanocrystals for fluorescent polyelectrolyte microcapsules
development. KnE Energy & Physics, 305–310. DOI 10.18502/ken.v3i2.1827
243. Nifontova, G.O., Baryshnikova M.B., Bozrova S.V., Sokolova, Z.A., Nabiev, I.R., Sukhanova,
A.V. (2018) Cytotoxicity of polyelectrolyte microcapsules encoded with semiconductor
nanocrystals. KnE Energy & Physics, 299–304. DOI 10.18502/ken.v3i2.1826
242. Dovzhenko, D.S., Chistyakov, A.A., Nabiev, I.R. (2018) Modeling and optimization of the
porous silicon photonic structures. KnE Energy & Physics, 75–81. DOI 10.18502/ken.v3i2.1795
241. Dovzhenko, D.S., Chistyakov, A.A., Nabiev, I.R. (2018) Porous silicon photonic crystal as a
substrate for high efficiency biosensing. KnE Energy & Physics, 69–74. DOI
10.18502/ken.v3i2.1794
240. Krivenkov, V.A., Samokhvalov, P.S., Chistyakov, A.A., Nabiev, I.R. (2018) Laser irradiation
as a tool to control the resonance energy transfer in bacteriorhodopsin–quantum dot bio–nano hybrid
material. KnE Energy & Physics, 168–174. DOI 10.18502/ken.v3i2.1809
239. Linkov, P.A., Vokhmintcev, K.V., Samokhvalov, P.S., Laronze-Cochard, M., Sapi, J., Nabiev,
I.R. (2018) Effect of the semiconductor quantum dot shell structure on fluorescence quenching by
acridine ligand. JETP Letters, 107 (4), 233–237. IF=1.399.
238. Ramos-Gomes, F., Bode, J., Sukhanova, A., Bozrova, S. V., Saccomano, M., Mitkovski, M.,
Krueger, J. E., Wege, A. K., Stuehmer, W., Samokhvalov, P. S., Baty, D., Chames, P., Nabiev, I.,
Alves, F.(2018) Single- and two-photon imaging of human micrometastases and disseminated
tumour cells with conjugates of nanobodies and quantum dots. Scientific Reports, 8, 4595.
IF=3.998.
*237. Sukhanova, A., Bozrova, S., Sokolov, P., Berestovoy, M., Karaulov, A., Nabiev, I. (2018)
Dependence of nanoparticle toxicity on their physical and chemical properties. Nanoscale Research
Letters, 13:44. IF=3.581.
236. Nifontova G., Zvaigzne, M., Baryshnikova, M., Korostylev, E., Ramos-Gomes, F. Alves, F.,
Nabiev, I., Sukhanova, A (2018) Next-generation theranostic agents based on polyelectrolyte
microcapsules encoded with semiconductor nanocrystals: Development and functional
characterization. Nanoscale Research Letters, 13:30. IF=3.581.
235. Dovzhenko, D.S., Ryabchuk, S.V., Rakovich, Yu.P., Nabiev, I.R. (2018) Light–matter
interaction in the strong coupling regime: configurations, conditions, applications. Nanoscale, 10,
3589–3605. IF=6.895.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
2017
234. Kosmyntseva A.V., Nabiev I.R., Rakovich Yu. P. (2017) Hybrid states of biomolecules in
strong-coupling regime. Nanotechnologies in Russia, 2017, 12 (7–8), 315–325.
233. 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.1.2-017, 113. DOI: 10.1111/febs.14174. IF=4.739.
232. 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 nanotomography. Ultramicroscopy, 182, 118-123.
IF=2.452.
231. 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=3.998.
230. 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, 18 (8), 970–
979. IF=3.144.
229. 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 of Scientific Instruments, 88,
032701. IF=1.480.
228. 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.
227. 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.
226. 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.
225. 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.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
224. 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.
223. 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.
222. 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.
221. 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.
220. 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.
219. 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.
218. 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.
217. 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.
216. 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.
215. 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.
214. 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.
213. 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.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
2016
212. Velic, D., Henry, S., Charlier, C., Popova, M., Weigel, P., Masson, J., Nabiev, I., Fleury, F.
(2016) Characterization of interaction between Rad51 inhibitor DIDS and human serum albumin.
FEBS J., 283 (Suppl. 1), 162–163. IF=4.739.
211. 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.
210. 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.
209. Bilan, R., Nabiev, I., Sukhanova, A. (2016) Quantum dot–based nanotools for bioimaging,
diagnostics, and drug delivery. ChemBioChem, 17 (22), 2103–2114. IF=2.576.
208. 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=16.907.
207. 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.
206. 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.
205. 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.
204. 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.
203. 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=4.031.
202. 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.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
201. 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.
200. 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.
199. 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.
198. 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.
197. 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.
196. 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.
195. 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=3.570.
2015
194. 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.
193. 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.
192. 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
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
Computational Technologies (SIBIRCON), 2015 International Conference. IEEE Conference
Publications, 119–121, DOI: 10.1109/SIBIRCON.2015.7361864.
191. Nabiev, I. (2015) Nano-bio hybrid materials for a new generation of high-throughput
diagnostic systems. Physics Procedia, 73, 95–99.
190. 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.
189. 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.
188. 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.
187. 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.
186. 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.
185. 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.
184. 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.
183. 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 samples. Nanomedicine: NBM, 11 (5), 1065–
1075. IF=5.182.
*182. 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=4.031.
181. 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=3.866.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
180. 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
conjugates. Anal. Biochem., 478, 26-32. IF=2.877.
179. 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.
2014
178. 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, special issue: Abstr. Conf. Science of the Future, St. Petersburg, 17-20 Sep 2014, 76.
177. 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=14.588.
176. 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=11.952.
175. 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=5.182.
174. 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=4.189.
173. 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.
172. Brazhnik, K., Nabiev, I., Sukhanova, A. (2014) Oriented conjugation of single-domain
antibodies and quantum dots. Methods in Molecular Biology, 1199, 129-140.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
171. 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.
170. 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.
169. 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.
168. 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.
167. 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. ProceedingsofSPIE, 8981, 898113.
166. Zaitsev, S.Yu., Solovyeva, D., Nabiev, I. (2014) Nano-biohybrid structures based on
organized films of photosensitive membrane proteins. Russian Chemical Reviews, 83(1), 38-81.
IF=4.750.
165. Bilan, R.S., Brazhnik, K.I., Chames, P., Baty, D., Nabiev, I.R., Sukhanova, A.V. (2014)
Oriented conjugates of single-domain antibodies and fluorescent nanocrystals: A new generation of
diagnostic nanoprobes for high-throughput detection of cancer markers. Rossiskii
Bioterapevticheskii Zhurnal [Russian Journal of Biotherapy], 13(4), 11-16 [in Russian].
164. Brazhnik, K.I., Sokolova, Z.A., Baryshnikova, M.A.., Bilan, R.S., Nabiev, I.R., Sukhanova,
A.V. (2014) Development of suspension microarrays based on microbeads encoded with fluorescent
nanocrystals and the principles of their use for multiplexed diagnosis of malignant tumors. Rossiskii
Bioterapevticheskii Zhurnal [Russian Journal of Biotherapy], 13(4), 3-10 [in Russian].
2013
163. 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=14.588.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
162. 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=6.895.
161. 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=4.739.
160. 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=3.597.
159. 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.
158. 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.
157. Brazhnik, K., Baryshnikova, M.A., Sokolova, Z.I., Nabiev, I., Sukhanova, A. (2013) New
directions in the studies and early diagnostics of cancer with suspension systems based on
fluorescent nanocrystals. Rossiskii Bioterapevticheskii Zhurnal [Russian Journal of Biotherapy],
12(3), 11–24 [in Russian].
156. Le Cigne, A., Sukhanova, A., Nabiev, I. (2014) 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.
155. 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 Physics Letters, 10, 085901. IF=1.884.
154. 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.
153. Rakovich, A., Nabiev, I., Sukhanova, A., Lesnyak, V., Gaponik, N., Rakovich, Yu.P., and
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), 2154-60.
IF=14.588.
152. Samokhvalov, P., Artemyev, M., Nabiev, I. (2013) Basic principles and current trends in
colloidal synthesis of highly luminescent semiconductor nanocrystals. Chemistry – A European
Journal, 19(5), 1534-1546. IF=4.857.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
151. Kotkovskij, G.E., Kuzischin, Yu., Martynov, I., Chistyakov, A.A., Nabiev, I. (2013) The
photophysics of porous silicon: technological and biomedical implications. Yadernaya Fizika i
Inzhiniring [Nuclear Physics and Engineering], 4(2), 174–192 [in Russian].
*150. 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.
http://dx.doi.org/10.1016/j.addr.2012.12.003. IF=13.300.
149. Akinfieva, O., Nabiev, I., Sukhanova, A. (2013) New directions in quantum dots-based flow
cytometry detection of cancer serum markers and tumor cells. Critical Reviews in
Oncology/Hematology, 86(1), 1-14. IF=5.833.
148. 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=10.257.
2012
147. Daineko, S.V., Artemyev, М.V., Nabiev, I., Tedoradze, M.G., Chistyakov, A.A. (2012) Solar
cells based on hybrid heterostructures of organic semiconductors and quantum dots. Nano- i
Mikrosistemnaya Tekhnika [Nano- and Microsystem Technologies], 9, 2–6 [in Russian].
146. Artemyev, M., Nabiev, I. (2012) Molecular beacons involving highly luminescent colloidal
quantum dots. Journal of Nanophotonics, 6(1), 060304.
145. Nabiev, I., Mochalov, K., et al. (2012) Novel cholesteric materials doped with CdSe/ZnS
quantum dots with photo- and electro-tunable circularly polarized emission. Liquid Crystals XVI,
Proc. SPIE, Vol. 8475, 847514; doi:10.1117/12.929729
144. 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.
143. 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.
142. 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
141. 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.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
Agahi, and M. Razeghi, eds. Biosensing and Nanomedicine V. Proceedings of SPIE, Vol. 8460,
(SPIE, Bellingham, WA 2012), 84600Y.
140. Dayneko, S.V., Tedoradze, M.G., Artemyev, M.V., Nabiev, I., Chistyakov, A.A. (2012)
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.
139. 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.
138. 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.
137. 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.
136. 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.
135. Bobrovsky, A., Mochalov, K., Oleinikov, V., Sukhanova, A., Prudnikau, A., Artemyev, M.,
Shibaev, V., Nabiev, I. (2012) Photo- and electro-tunable circularly-polarized emission from novel
cholesteric materials doped by fluorescent CdSe/ZnS quantum dots. Advanced Materials, 24, 6216-
6222. IF=27.398.
134. 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. Protocol Exchange (Nature Publishing Group), DOI:
10.1038/protex.2012.042.
133. 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, 13890-13902. IF=3.430.
132. Zaitsev S.Yu., Solovyeva D.O., Nabiev, I. (2012) Monolayers of membrane proteins and
hybrid nanostructures. Advances in Colloid and Interface Science, 183-184, 14-29. IF=9.922.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
*131. Shemetov, A., Nabiev, I., Sukhanova, A. (2012) Molecular interaction of proteins and
peptides with nanoparticles. ACS Nano, 6 (6), 4585–4602. IF=14.588.
130. 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=1.854.
129. 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: Wolfgang J. Parak, Kenji Yamamoto, Marek Osinski, eds. Colloidal Nanocrystals
for Biomedical Applications VII, Proceedings of SPIE, Vol. 8232 (SPIE, Bellingham, WA 2012)
82320T.
128. 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 sructural examination. Materials Science and
Engineering B., 177, 744–749. IF=4.706.
127. 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 Comparative efficiency of energy transfer from CdSe–ZnS
quantum dots or nanorods to organic dye molecules. ChemPhysChem, 13, 330-335. IF=3.144.
*126. Sukhanova, A., Even-Desrumeaux, K., Kisserli, A., Tabary, T., Reveil, B., Millot, J.M.,
Chames, P., Baty, D., Artemyev, M., Oleinikov, V.A., Pluot, M., Cohen, J.H.M., Nabiev, I. (2012)
Oriented conjugates of single-domain antibodies and quantum dots: toward a new generation of
ultrasmall diagnostic nanoprobes. Nanomedicine: NBM, 8, 516-525. IF=5.182.
2011 and earlier.
125. Mahmoud, W., Rousserie, G., Reveil, B., Tabary, T., Millot, J.-M., Artemyev, M., Oleinikov,
V.A., Cohen, J.H.M., Nabiev, I., Sukhanova, A. (2011) Advanced procedures for labeling of
antibodies with quantum dots. Anal. Biochem., 416, 180-185. IF=2.877.
124. Bouchonville, N., Molinari, M., Sukhanova, A., Artemyev, M., Oleinikov, V.A., Troyon, M.,
Nabiev, I. (2011) Charge-controlled assembling of bacteriorhodopsin and semiconductor quantum
dots for FRET-based nanophotonic applications. Appl. Phys. Lett., 98, 013703. IF=3.597.
123. Nabiev, I., Rakovich, A., Sukhanova, A., Lukashev, E., Zagidullin, V., Pachenko, V.,
Rakovich, Y., Donegan, J.F., Rubin, A.B. and Govorov, A.O. (2010) Fluorescent quantum dots as
artificial antennas for enhanced light harvesting and energy transfer to photosynthetic reaction
centers. Angewandte Chemie Intl Ed., 49, 7217-7221. IF=12.959. Featured article.
122. Rakovich, A., Sukhanova, A., Lukashev, E., Oleinikov, V.A., Artemyev, M., Gaponik, N.,
Bouchonville, N., Molinari, M., Troyon, M., Rakovich, Y.P., Donegan, J.F., Nabiev, I. (2010)
Resonance energy transfer improves the biological function of bacteriorhodopsin within a hybrid
material built from purple membranes and semiconductor quantum dots. Nano Lett., 10 (7), 2640–
2648. IF=11.238. Featured article.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
121. Rousserie, G., Sukhanova, A., Even, K., Fleury, F., Chames, P., Baty, D., Oleinikov, V., Pluot,
M., Cohen, J.H.M., Nabiev, I. (2010) Semiconductor quantum dots for multiplexed bio-detection
and cancer diagnosis on solid-state microarrays. Crit. Rev. Oncol./Hematol., 74, 1-15. IF=5.833.
120. Mahmoud, W., Sukhanova, A., Oleinikov, V., Rakovich, Yu., Donegan J.F., Pluot, M., Cohen,
J.H.M., Volkov, Yu., Nabiev, I. (2010) Emerging applications of fluorescent nanocrystals quantum
dots for micrometastases detection. Proteomics, 10(4), 700-716. IF=3.106.
119. Rakovich, A., Sukhanova, A., Bouchonville, N., Molinari, M., Troyon, M., Cohen, J.H.M,
Rakovich, Yu., Donegan, J.F., Nabiev, I. (2009) Energy transfer processes in semiconductor
quantum dots: bacteriorhodopsin hybrid system. Proceedings of SPIE, 7366, paper 736620.
DOI: 10.1117/12.821731
118. Williams, I.E., Sukhanova, A., Davies, A.M., Oleinikov, V., Nabiev, I., Kelleher, D., Volkov,
Y. (2009) Probing cell type-specific intracellular nanoscale barriers using size-tuned quantum dots.
Small, 5(22), 2581-2588. IF=11.459. Featured article.
117. Artemyev, M., Ustinovich, E., Nabiev, I. (2009) Efficiency of energy transfer from organic dye
molecules to CdSe-ZnS nanocrystals: nanorods versus nanodots. J. Am. Chem Soc., 131(23) 8061-
8065. IF=14.612. Featured article.
116. Sukhanova, A., Nabiev, I. (2008) Fluorescent nanocrystal quantum dots as medical diagnostic
tools. Expert Opinion on Medical Diagnostics, 2(4), 429-447.
115. Sukhanova, A., Nabiev, I. (2008) Fluorescent nanocrystal-encoded microbeads for multiplexed
cancer imaging and diagnosis. Crit. Rev. Oncol./Hematol., 68, 39-59. IF=5.833. Featured article.
114. Nabiev, I., Sukhanova, A., Artemyev, M., Oleinikov, V. (2008) Fluorescent colloidal particles
as a detection tools in biotechnology systems. In: Colloidal Nanoparticles in Biotechnology,
pp.376. Ed by A Elaissari, Wiley&Sons Inc., p 133-68. ISBN: 978-0-470-23052-7
*113. Nabiev, I., Mitchell, S., Williams, Y., Kelleher, D., Moore, R., Gun'ko, Y.K., Byrne, S.,
Rakovich, Y.P., Donegan, J.F., Sukhanova, A., Conroy, J., Cottell, D., Gaponik, N., Rogach, A.,
Volkov, Y. (2007) Nonfunctionalized nanocrystals can exploit a cell's active transport machinery
delivering them to specific nuclear and cytoplasmic compartments. Nano Letters, 7, 3452-
3461. IF=11.238. Featured article.
112. Sukhanova, A., Susha, A.S., Bek, A., Mayilo, S., Rogach, A.L., Feldmann, J., Oleinikov, V.,
Reveil, B., Donvito, B., Cohen, J.H.M., Nabiev, I. (2007) Nanocrystal-encoded fluorescent
microbeads for proteomics: Antibody profiling and diagnostics of autoimmune diseases. Nano
Letters, 7, 2322-2327. IF=11.238. Featured article.
111. Sukhanova, A., Baranov, A., Volkov Y., Rogach, A., Artemyev, M., Klinov, D., Oleinikov, V.,
Cohen, J.H.M., Nabiev, I. (2007) Lab-in-Drop: Self-assembly of CdSe/ZnS quantum dots and rods
into polycrystalline nanostructures with desired optical properties. Nanotechnology, 18, 185602
(8pp). IF=3.551. Featured article.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
110. Artemyev, M.V., Chistyakov, A.A., Daineko, S.V., Martynov, I.L., Nabiev, I., Oleinikov,
V.A., Zaharchenko, K.V. (2007) Laser induced luminescence of dense films of CdSe/ZnS
nanoparticles. Proceedings of SPIE, 6613, art. no. 66130M.
109. Artemyev, M.V., Chistyakov, A.A., Daineko, S.V., Martynov, I.L., Nabiev, I., Oleinikov,
V.A., Zaharchenko, K.V. (2007) Anti-stokes photoluminescence of CdSe/ZnS nanoparticles in
solution and condensed phase. Proceedings of SPIE, 6613, 66130L.
108. Oleinikov, V., Fleury, F., Ianoul, A., Zaitsev, S., Nabiev, I. (2006) P-glycoprotein effect on the
properties of its natural lipid environment probed by Raman spectroscopy and Langmuir-Blodgett
technique. FEBS Lett., 580, 4953-4958. IF=3.057.
107. Sukhanova, A., Baranov, A.V., Perova T., Cohen, J.H.M., Nabiev, I. (2006) Controlled self-
assembly of nanocrystals in polycrystalline fluorescent dendrites with energy-transfer properties.
Angew. Chem. Intl Ed., 45, 2048-2052. Featured article. IF=12.959.
106. Sukhanova, A., Baranov, A.V., Klinov, D., Oleinikov, V., Berwick, K., Cohen, J.H.M., Pluot,
M., Nabiev, I. (2006) Self-assembly of charged CdSe nanodots and nanorods into 2D-hierarchically
ordered colloidal arrays. Nanotechnology, 17, 4223-4228. IF=3.551.
105. Stsiapura, V., Sukhanova, A., Baranov, A., Artemyev, M., Kulakovich, O., Oleinikov, V.,
Pluot, M., Cohen, J.H.M., Nabiev, I. (2006) DNA-assisted formation of quasi-nanowires from
fluorescent CdSe/ZnS nanocrystals. Nanotechnology, 17, 581-587. IF=3.551. Features article.
104. Joumaa, N., Lansalot, M., Théretz, A., Elaissari, A., Sukhanova, A., Artemyev, M., Nabiev, I.,
Cohen, J.H.M. (2006) Synthesis of quantum dots-tagged submicronic polystyrene particles by
miniemulsion polymerization. Langmuir, 22, 1810-1816. IF=3.557. Featured article.
103. Sukhanova, A., Venteo, L., Cohen, J.H.M., Pluot, M., Nabiev, I. (2006) Nano-biocapteurs for
research and diagnostics in inflammation deseases and cancer. Ann. Acad. Pharm. Franç., 64, 125-
134 [in French].
102. Stsiapura, V., Sukhanova, A., Artemyev, M., Strekal, N., Maskevitch, S., Kulakovitch, O.,
Mochalov, K., Nabiev, I., Oleinikov, V. (2005) Semiconductor quaisi-nanowires from fluorescent
CdSe/ZnS nanocrystals templated by the stretched DNA molecules. Optics and Spectroscopy, 44,
48-58.
101. Zaharchenko, K.V., Obraztcova, E.A., Mochalov, K.E., Artemyev, M.V., Martynov, I.L.,
Klinov, D.V., Nabiev, I., Chistyakov, A.A., Oleinikov, V.A. (2005) Laser-induced luminescence of
CdSe/ZnS nanoparticles in solution and condensed phase. Laser Physics, 15, 1150-1153.
*100. Sukhanova, A., Devy, J., Venteo, L., Kaplan, H., Artemyev, A., Oleinikov, V., Klinov, D.,
Pluot, M., Cohen, J.H.M., Nabiev, I. (2004) Biocompatible fluorescent nanocrystals for
immunolabeling of membrane proteins and cells. Anal. Biochem., 324, 60-67. IF=2.877. Featured
article.
99. Stsiapura, V., Sukhanova, A., Artemyev, A., Pluot, M., Cohen, J.H.M., Baranov, A.V.,
Oleinikov, V.A., Nabiev, I. (2004) Functionalized nanocrystal-tagged fluorescent polymer beads:
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
synthesis, physicochemical characterization and immunolabeling application. Anal. Biochem., 334,
257-265. IF=2.877. Featured article.
*98. Wargnier, R., Baranov, A., Maslov, V., Stsiapura, V., Artemyev, M., Pluot, M., Sukhanova, A.,
Nabiev, I. (2004) Energy transfer in aqueous solutions of oppositely charged nanoassemblies of
CdSe/ZnS core/shell quantum dots and in quantum dot–nanogold assemblies. Nano Lett., 4, 451-
457. Featured article. IF=11.238.
97. Gobrbatsevich, S., Kaputskaya, I., Mikhnevich, S., Artemyev, M., Nabiev, I., Strekal, N.,
Maskevich, S. (2004) Fluorescence of Cd.ZnS quantum dots in solid solutions in the presence of
organic molecules DODCI. J. Luminesc., 110, 24-39. IF=3.280.
96. Hafian, H., Venteo, L., Sukhanova, A., Nabiev, I., Lefevre, B., Pluot, M. (2004)
Immunohistochemical study of DNA topoisomerase I, DNA topoisomerase II alpha, p53, and Ki-67
in oral preneoplastic lesions and oral squamous cell carcinomas. Human Pathology, 35, 745-751.
IF=2.735.
95. Devy, J., Wargnier, R., Pluot, M., Nabiev, I., Sukhanova, A. (2004) Topotecan-induced
alterations in the amount and stability of human DNA topoisomerase I in solid tumor cell lines.
Anticancer Res., 24, 1745-1751. IF=1.994.
*94. Baranov, A., Rakovich, Yu., Donegan, J., Perova, T., Moore, R., Talapin, D., Rogach, A.,
Masumoto, Y., Nabiev, I. (2003) Effect of ZnS shell thickness on the phonon spectra in CdSe
quantum dots. Phys. Rev. B, 68, 1653061-1653067. IF=3.575. Featured article.
93. Streltsov, S., Oleinikov, V., Ermishov, M., Mochalov, K., Sukhanova, A., Nechipurenko, Yu.,
Grokhovsky, S., Zhuze, A., Pluot, M., Nabiev, I. (2003) Interaction of clinically important human
DNA topoisomerase I poison topotecan with double-stranded DNA. Biopolymers, 72, 442-454.
IF=1.854.
92. Sukhanova, A., Grokhovsky, S., Zhuze, A., Devy, J., Pluot, M., Oleinikov, V., Nabiev, I. (2003)
Camptothecin conjugated with DNA minor-groove binder netropsin: enhanced lactone stability,
inhibition of human DNA topoisomerase I and antiproliferative activity. Anticancer Res., 23, 2609-
2615. IF=1.994.
91. Oleinikov, V., Ustinova, O., Mochalov, K., Ermishov, M., Grokhovskii, S., Zhuze, A.,
Sukhanova, A., Nabiev, I. (2003) Kinetics of the lactone-carboxylate transition of hybrid
camptothecin-netropsin molecules. Biofizika, 48, 436-442.
90. Sukhanova, A., Venteo, L., Devy, J., Artemyev, M., Oleinikov, V., Pluot, M., Nabiev, I. (2002)
Highly stable fluorescent nanocrystals as a novel class of labels for immunohistochemical analysis
of paraffin-embedded tissue sections. Lab. Invest., 82, 1259-1262. Featured article. IF=3.684.
89. Oleinikov, V., Sukhanova, A., Mochalov, K., Ustinova, O., Kudelina, I., Bronstein, I., Nabiev, I.
(2002) DNA binding induces conformational transition within the humane DNA topoisomerase I in
solution. Biopolymers, 67, 369-375. IF=1.854.
88. Sukhanova, A., Grokhovski, S., Ermishev, M., Mochalov, K., Zhuze, A., Oleinikov, V., Nabiev,
I. (2002) DNA structural alterations induced by bis-netropsins modulate human DNA topoisomerase
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
I cleavage activity and poisoning by camptothecin. Biochem. Pharmacol., 64, 87-98. Featured
article. IF=4.960.
87. Mochalov, K., Strel’tsov, S., Ermishov, M., Grokhovski, S., Zhuze, A., Ustinova, O.,
Sukhanova, A., Nabiev, I., Oleinikov, V. (2002) Surface-enhanced Raman scattering spectroscopy
of topotecan–DNA complexes: binding to DNA induces topotecan dimerization. Optics and
Spectroscopy, 93, 416–423.
86. Mochalov, K., Streltsov, S., Ermishov, M., Grokhovskii, S., Zhuze, A., Ustinova, O.,
Sukhanova, A., Nabiev, I., Oleinikov, V. (2002) Surface-enhanced Raman scattering spectroscopy
of topotecan-DNA complexes: topotecan binds DNA via partial intercalation. Optics and
Spectroscopy, 93, 453-461.
85. Mochalov, K., Ustinova, O., Strel’tsov, S., Grokhovski, S., Zhuze, A., Nabiev, I., Sukhanova,
A., Oleinikov, V. (2002) Raman spectroscopy of topotecan, an inhibitor of DNA topoisomerase I.
Optics and Spectroscopy, 93, 493–500.
*84. Kulakovich, O., Strekal, N., Yaroshevich, A., Maskevich, S., Gaponenko, S., Nabiev, I.,
Woggon, U., Artemyev, M. (2002) Enhanced luminescence of CdSe quantum dots on gold colloids.
Nano Letters, 2, 1449-1452. IF=11.238. Featured article.
83. Zaitsev, S., Volchenkova, T., Ustinova, O., Koshtigo, T., Bagetto, L., Fleury, F., Madoulet, C.,
Nabiev, I., Oleinikov, V. (2002) Study of P-glycoprotein effect on the lipid monolayer properties by
the Langmuir-Blodgett technique. Biofizika, 47, 1073-1079.
82. Streltsov, S.A., Sukhanova, A., Mikheikin, A.L., Grokhovsky, S.L., Zhuze, A.L., Kudelina, I.A.,
Mochalov, K.E., Oleinikov, V.A., Jardillier, J.-C., Nabiev, I. (2001) Structural basis of topotecan-
DNA recognition probed by flow linear dichroism and Raman spectroscopy. J. Phys. Chem, 105,
9643-9652.
81. Lynch, M.A., Duval, O., Sukhanova, A., Devy, J., MacKay, S.P., Waigh, R.D., Nabiev, I.
(2001) Synthesis, biological activity and comparative analysis of DNA binding affinities and human
DNA topoisomerase I inhibitory activities of novel 12-alkoxy-benzo [c]phenanthridinium salts.
Bioorg. Med. Chem. Lett., 11, 2643-2646. IF=2.572. Featured article.
80. Sukhanova, A., Dêvy, J., Pluot, M., Bradley, J.-C., Vigneron, J.-P., Jardillier, J.-C., Lehn, J.-M.,
Nabiev, I. (2001) Human DNA topoisomerase I inhibitory activities of synthetic polyamines:
Relation to DNA aggregation. Bioorgan. Medicinal Chem., 9, 1255-1268. IF=3.073.
79. Nechipurenko, Yu., Mikheikin, M., Streltsov, S., Zasedatelev, A., Nabiev, I. (2001) Mixed
mode of ligand-DNA binding results in S-shaped binding curves. J. Biomol. Struct. Dynamics, 18,
703-708.
78. Fleury F., Sukhanova A., Ianoul A., Devy J., Kudelina I. Duval O., Alix A.J.P., Jardillier J.C.,
Nabiev, I. (2000) Molecular determinants of site-specific inhibition of human DNA topoisomerase I
by fagaronine and ethoxidine : Relation to DNA binding. J. Biol. Chem., 275, 3501-3509. Featured
article. IF=4.238.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
77. Strekal, N., Maskevich, A., Maskevich, S., Jardillier, J.C., Nabiev, I. (2000) Selective
enhancement of Raman or fluorescence spectra of biomolecules using specifically annealed thick
gold films. Biopolymers, 57, 325-328. IF=1.854.
76. Ermishov M., Sukhanova A., Kryukov E., Grokhovsky S., Zhuze A., Oleinikov V., Jardillier
J.C., Nabiev, I. (2000) Raman and surface-enhanced Raman scattering spectroscopy of bis-
netropsins and their DNA complexes. Biopolymers, 57, 272-281. IF=1.854.
75. Fleury F., Ianoul A., Baggetto L., Jardillier J.C., Alix A.J.P., Nabiev, I. (1999) Raman, SERS,
and induced circular dichroism techniques as a probe of pharmaceuticals in their interactions with
the human serum albumin and P-glycoprotein. Biomedical Applications of Raman Spectroscopy,
Proc. SPIE, 3608, 80; doi:10.1117/12.345387.
74. Bronstein I., Wynne-Jones A., Sukhanova A., Fleury F., Ianoul A., Holden J., Alix A.J.P.,
Dodson G., Jardillier J.C., Nabiev, I., Wilkinson A. (1999) Expression, purification and DNA-
cleavage activity of recombinant 68-kDa human topoisomerase I – target for antitumour drugs.
Anticancer Res., 19, 317-328. IF=1.994. Featured article.
73. Ianoul A., Fleury F., Duval O., Waigh R., Jardillier J.C., Alix A.J.P., Nabiev, I. (1999) DNA
binding by fagaronine and ethoxidine, inhibitors of human DNA topoisomerases I and II, probed by
SERS and flow linear dichroism spectroscopy. J. Phys. Chem., 103, 2008-2013.
72. Oleinikov V., Kryukov E., Kovner M., Ermishov M., Tuzikov A., Shiyan S., Bovin N., Nabiev,
I. (1999) Sialylation sensitive bands in the Raman spectra of oligosaccharides and glycoproteins. J.
Molecular Struct., 480/481, 475-480. IF=2.463.
71. Feofanov A., Charonov S., Fleury F., Kudelina I., Jardillier J.C., Nabiev, I. (1999) Confocal
spectral imaging analysis of intracellular interactions of antitumour drug mitoxantrone at the
different phases of cell cycle. Anticancer Res., 19, 5341-5348. IF=1.994.
70. Kryukov, E.Yu., Sukhanova, A.V., Grokhovsky, S.L., Zhuze, A.L., Nabiev, I. (1999) Surface-
enhanced Raman scattering spectroscopy of complexes of bis-netropsins with DNA. Mol. Biol., 33,
405-413.
69. Fleury F., Ianoul A., Kryukov E., Sukhanova A., Kudelina I., Wynne-Jones A., Bronstein I.,
Maizieres M., Berjot M., Dodson G., Wilkinson A., Holden J., Feofanov A., Alix A.J.P., Jardillier
J.C., Nabiev, I. (1998) Raman and CD spectroscopy of recombinant 68-kDa DNA human
topoisomerase I and its complex with suicide DNA-substrate. Biochemistry, 37, 14630-14642.
IF=2.865. Featured article.
68. Tarabara V., Nabiev, I., Feofanov V. (1998) Thio-organically modified SERS-active substrate
for analyte microprobing in multicomponent mixtures. Langmuir, 14, 1092-1098. IF=3.557.
67. Nabiev, I., Fleury F., Kudelina I., Pommier Y., Charton F., Riou J.-F., Alix A.J.P., Manfait M.
(1998) Spectroscopic and biochemical characterisation of self-aggregates formed by antitumor drugs
of the camptothecin's family: Do they play a role in the unique mode of drug action? Biochem.
Pharmacol., 55, 1163-1174. IF=4.960. Featured article.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
66. Oleinikov, V., Feofanov A., Shiyan S., Tuzikov A., Kryukov E., Ianoul A., Bovin N., Nabiev, I.
(1998) Structural organization of the carbohydrate chanes in α1-acid glycoprotein and in
pseudoglycoproteins probed by the surfece-enhanced Raman spectroscopy. Bioorganic Chemistry,
24, 412-421.
65. Feofanov A.V., Sharonov S., Kudelina I., Fleury F., Nabiev, I. (1997) Localization and
molecular interactions of mitoxontrone within living K562 cells as probed by confocal spectral
imaging analysis. Biophys. J., 73, 3317-3327. IF=3.854. Featured article.
64. Feofanov A.V., Sharonov S., Fleury F., Kudelina I., Nabiev, I. (1997) Quantitative confocal
spectral imaging analysis of mitoxantrone within the K562 cells: Intracellular accumulation and
distribution of monomers, aggregates, naphtoquinoxaline metabolite and drug-target complexes.
Biophys. J., 73, 3328-3336. IF=3.854.
63. Feofanov A.V., Oleinikov V.A., Tuzikov A.B., Ianoul A.I., Krukov E.Yu., Bovin N.V., Nabiev,
I. (1997) Study of sialated neoglycoconjugates by surface-enhanced Raman scattering spectroscopy.
Bioorg. Chem., 23, 910-918.
62. Feofanov A., Ianoul A., Krukov E., Maskevich, S., Vasiliuk G., Kivach, L., Nabiev, I. (1997)
Non-Disturbing and stable SERS-active substrates with increased contribution of long-range
component of Raman enhancement created by high-temperature annealing of thick metal films.
Analyt. Chem., 69, 3731-3740. IF=6.785. Featured article.
61. Feofanov A., Ianoul A., Oleinikov V., Nabiev, I. (1997) Equilibrium constants for complexation
of some crown ether ionophores with Mg2+
as measured by surface enhanced Raman scattering
spectroscopy. Opt. Spectrosc., 41, 256-262.
60. Fleury F., Ianoul A., Berjot M., Feofanov A., Alix A.J.P., Nabiev, I. (1997) Camptothecin-
binding site in human serum albumin and protein transformations induced by drug binding. FEBS
Lett., 411, 215-220. IF=3.057.
59. Fleury F., Kudelina I., Nabiev, I. (1997) Interactions of lactone, carboxylate and self-aggregated
forms of camptothecin with human and bovine serum albumins. FEBS Lett., 406, 151-156.
IF=3.057. Featured article.
58. Feofanov A., Ianoul A., Oleinikov V., Gromov S., Fedorova O., Alfimov M., Nabiev, I. (1997)
Complexation of photochromic crown ether styryl dyes with Mg2+ as probed by surface-enhanced
Raman scattering spectroscopy. J. Phys. Chem. B, 101, 4077-4084.
57. Oleinikov V., Feofanov A., Ianoul A., Kryukov E., Shiyan S., Bovin N., Nabiev, I. (1997) The
structure of carbohydrate chains of alpha1-acid glycoprotein. Surface-enhanced Raman scattering
spectroscopy study. Eur. Biophys. J., 26, p.30. IF=2.094.
56. Feofanov A.V., Baranov A.V., Fleury F., Riou J.-F., Nabiev, I., Manfait M. (1996) DNA
topoisomerase I changes the mode of interaction between camptothecin drugs and DNA as probed
by UV-resonance Raman spectroscopy. FEBS Lett., 396, 289-292. IF=3.057.
55. Sockalingum G.D., Chourpa I., Millot J.M., Nabiev, I., Sharonov S., Manfait M. (1996) Optical
microscopy and imaging analysis: Probing drugs and metal ions in living cells. Biomedical
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
Applications of Spectroscopy. R.J.H.Clark and R.E.Hester, eds., vol.23, John Wiley & Sons Ltd,
London, 1996, Chapter 2, p.49-87.
54. Manfait M., Nabiev, I. (1996) Raman microscopy applications to medicine, In: Raman
Microscopy, J. Corset, ed., Academic Press, London, 1996, Chapter 9, p.379-420.
53. Feofanov A., Ianoul A., Oleinikov V., Gromov S., Fedorova O., Alfimov M., Nabiev, I. (1996)
Surface-enhanced resonance Raman spectra of photochromic crown ether styryl dyes, their model
chromophores and their complexes with Mg2+. J. Phys. Chem., 100, 2154-2160.
52. Feofanov A., Ianoul A., Oleinikov V., Nabiev, I., Gromov S., Fedorova O., Alfimov M. (1996)
Crown ether styryl dyes. 17. Betaines of chromogenic 15-crown-5-ethers and their complexes with
Mg: a SERS spectroscopy study. Chem. Bull., 112, 24-29.
51. Maskevich S., Sveklo I., Feofanov A., Ianoul A., Oleinikov V., Gromov S., Fedorova O.,
Alfimov M., Nabiev I., Kivach L. (1996) SERS-active substrates created by annealing of thin silver
films at high temperature: Comparative studies by atomic force microscopy and SERS spectroscopy.
Opt. Spectrosc., 49, 1114-1119.
50. Feofanov A.V., Oleinikov V., Kryukov E., Ianoul A., Sokolov K., Tuzikov A., Bovin N,
Nabiev, I. (1996) Sialosides and their derivatives: A surface-enhanced Raman scattering
spectroscopy study. Bioorg. Chem., 14, 1148-1154.
49. Feofanov A., Sharonov S., Valisa P., Da Silva E., Nabiev, I., Manfait M. (1995) A new confocal
stigmatic spectrometer for micro-Raman and micro-fluorescence spectral imaging analysis. Design
and applications. Rev. Sci. Instrum., 66, 3146-3158.
48. Nabiev, I., Baranov A., Chourpa I., Beljebbar A., Sockalingum G., Manfait M. (1995) Does
adsorption on the surface of silver colloid perturb drug/DNA interactions? Comparative SERS, FT-
SERS, and resonance Raman study of mitoxantrone and its derivatives. J. Phys. Chem., 99, 1608-
1613. Featured article.
47. Feofanov A., Fleury F., Sharonov S., Morjani H., Nabiev, I., Manfait M. (1995) Confocal
spectral imaging analysis of the distribution of mitoxantrone within the single living cell as a
function of cell cycle. J. Trace and Microprobe Techniques, 13, 241-243.
46. Sharonov S., Chourpa I., Morjani H., Nabiev, I., Manfait M. (1994) Confocal spectral imaging
analysis: A new concept for studies of spatial distribution of antitumor drugs within living cancer
cell. Anal. Chim. Acta, 290, 40-47. IF=5.977. Featured article.
45. Nabiev, I., Chourpa I. Manfait M. (1994) Applications of Raman and surface-enhanced Raman
scattering spectroscopy in medicine. J. Raman Spectrosc., 25, 13-23. IF=2.00. Featured article.
44. Nabiev, I., Chourpa I. Manfait M. (1994) Comparative studies of antitumor DNA intercalating
agents, aclacinomycin and saintopin, by means of surface-enhanced Raman scattering spectroscopy.
J. Phys. Chem., 98, 1344-1350. Featured article.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
43. Sharonov S., Nabiev, I., Chourpa I., Feofanov A., Valisa P., Manfait M. (1994) Confocal 3D-
Scanning Laser Raman/SERS/Fluorescence Microprobe. Spectral Imaging and High-Resolution
Applications. J. Raman Spectrosc., 25, 699-707. IF=2.00. Featured article.
42. Nabiev, I., Chourpa I., Riou J.-F., Nguyen C.H., Lavelle F., Manfait M. (1994) Molecular
interactions of DNA-topoisomerase I and II inhibitor with DNA, topoisomerases and in ternary
complexes. Binding modes and biological effects for intoplicine derivatives. Biochemistry, 33,
9013-9023. IF=2.865. Featured article.
41. Sokolov K.V., Khodorchenko P.I., Nabiev, I., Petukhov A.I., Chumanov G.I., Cotton T.M.
(1993) Contribution of short-range and classical electromagnetic mechanisms to SERS from
different types of biomolecules adsorbed on cold-deposited island films. Appl. Spectrosc., 47, 515-
522. IF=2.087.
40. Sokolov K.V., Byramova N.E., Mochalova L.V., Tuzikov A.B., Shiyan S.D., Bovin N.V.,
Nabiev, I. (1993) Sialic acids residues detection and their characterization in normal and tumor acid
glycoproteins as probed by surface-enhanced Raman spectroscopy. Appl. Spectrosc., 47, 535-538.
IF=2.087.
39. Oleinikov V.A., Sokolov K.V., Nabiev, I. (1993) Nuclear pore membrane technology
application to preparation of surfaces for trace analysis of substances by surface-enhanced Raman
spectroscopy. Zhurnal Prikladnoy Spektroskopii [Journal of Applied Spectroscopy], 56, 112-117
[in Russian].
38. Nabiev, I., Sokolov K.V., Manfait M. Surface-enhanced Raman spectroscopy and its biomedical
applications. Biomolecular Spectroscopy, R.J.H.Clark and R.E.Hester, eds., vol.20, Part A, John
Wiley & Sons Ltd, London, 1993, Chapter 7, p.267-338.
37. Nabiev, I., Manfait M. (1993) Industrial applications of the surface-enhanced Raman
spectroscopy. Revue de l'Institut Français du Pétrole, 48, 261-285.
36. Morjani H., Riou J.-F., Nabiev, I., Lavelle F., Manfait M. (1993) Molecular and cellular
interactions between intoplicine, DNA and topoisomerase II studied by surface-enhanced Raman
scattering spectroscopy. Cancer Res., 53, 4784-4790. IF=9.727. Featured article.
35. Efremov R.G., Feofanov A.V., Nabiev, I. (1992) Effect of Hydrophobic Environment on the
Resonance Raman Spectra of Tryptophan Residues in Proteins. J. Raman Spectrosc., 23, 69-73.
IF=2.00.
34. Manfait M., Nabiev, I., Morjani H. (1992) Molecular events on single living cancer cells as
studied by microspectrofluorometry and micro-SERS Raman spectroscopy. J. Cell Pharmacol., 3,
20-125. Featured article.
33. Efremov R.G., Feofanov A.V., Nabiev I.R. (1991) Computerized technique for the analysis of
weak signals in UV Raman scattering from biological molecules. Journal of Applied Spectroscopy,
54 (5), 417–424.
32. Feofanov A.V., Okolelov V.I., Tatarinov A.P., Martynova E.S., Efremov R.G., Nabiev I.R.,
Pashchenko V.Z., Manykin E.A. (1992) Selective analysis of nucleic acids in mycobacteria
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
according to Raman resonance spectroscopy data. Journal of Applied Spectroscopy, 55 (3), 877–
883.
31. Efremov R.G., Feofanov A.V., Nabiev, I. (1991) Quantitative treatment of UV resonance
Raman spectra of biological molecules: Application to the study of membrane-bound proteins. Appl.
Spectrosc., 45, 272-278. IF=2.087.
30. Nabiev, I., Morjani H., Manfait M. (1991) Selective analysis of antitumour drug interaction with
living cancer cells as probed by surface-enhanced Raman spectroscopy. Eur. Biophys. J., 19, 311-
316. IF=2.094. Featured article.
29. Sokolov K., Lutsenko S., Nabiev, I., Nie S., Yu N.-T. (1991) Surface-enhanced Raman analysis
of biomedical eye lens extracts. Appl. Spectrosc., 45, 1143-1148. IF=2.087.
28. Chumanov G.D., Efremov R.G., Nabiev, I. (1990) Surface-enhanced Raman spectroscopy of
biomolecules. I. Water-soluble proteins, dipeptides and amino acids. J. Raman Spectrosc., 21, 43-
48. IF=2.00. Featured article.
27. Nabiev, I., Chumanov G.D., Efremov R.G. (1990) Surface-enhanced Raman spectroscopy of
biomolecules. II. The application of short- and long-range components of SERS to study the
structure and function of the membrane proteins. J. Raman Spectrosc., 21, 49-53. IF=2.00.
Featured article.
26. Nabiev, I., Sokolov K.V., Voloshin O.N. (1990) Surface-enhanced Raman spectroscopy of
biomolecules. III. Determination of the secondary structure of nucleic acids and destabillization
regions in the double helix. J. Raman Spectrosc., 21, 333-336. IF=2.00. Featured article.
25. Feofanov A.V., Efremov R.G., Dzhandzhugazyan K.N., Nabiev, I. (1990) Resonance Raman
spectroscopy of membrane proteins. Microenvironment of the ATP adenine ring in the complex
with Na,K-ATPase. Biol. Membr., 7, 76-85.
24. Efremov R.G., Feofanov A.V., Dzhandzhugazyan K.N., Modyanov N.N., Nabiev, I. (1990)
Study of ATP binding in the active site of Na,K-ATPase as probed by ultraviolet resonance Raman
spectroscopy. FEBS Lett., 260, 257-260. IF=3.057.
23. Nie S., Castillo C.G., Bergbauer K.L., Kuck J.F.R., Nabiev, I., Yu N.-T. (1990) Surface-
enhanced Raman spectra of eye lens pigments. Appl. Spectrosc., 44, 571-575. IF=2.087.
22. Nabiev, I., Efremov R.G. Surface-Enhanced Raman Spectroscopy: Principles and
Applications,M.V. Volkenstein, ed., Moscow, VINITI, 1989. - 132 pp. [in Russian].
21. Nabiev, I., Dzhandzhugazyan K.N., Efremov R.G., Modyanov N.N. (1988) Secondary structure
changes in Na,K-ATPase, induced by binding of monovalent cations. Biol. Membr., 5, 901- 909.
20. Ovchinnikov Yu.A., Arystarkhova E.A., Arzamazova N.M., Dzhandzhugazyan K.N., Efremov
R.G., Nabiev, I., Modyanov N.N. (1988) Differentiated analysis of the secondary structure of
hydrophilic and hydrophobic regions of subunits of Na,K-ATPase by Raman spectroscopy. FEBS
Lett., 227, 235-239. IF=3.057. Featured article.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
19. Nabiev, I., Dzhandzhugazyan K.N., Efremov R.G., Modyanov N.N. (1988) Binding of
monovalent cations induces large changes in the secondary structure of Na,K-ATPase as probed by
Raman spectroscopy. FEBS Lett., 236, 235-239. IF=3.057.
18. Nabiev, I., Efremov R.G., Chumanov G.D. (1988) Surface-enhanced Raman spectroscopy and
its applications to the study of biological molecules. Uspekhi Fiz. Nauk [Advances in Physics], 154,
459-496 [in Russian]. Featured article.
17. Abdulaev N.G., Nabiev, I., Efremov R.G., Chumanov G.D. (1987) Retinal schiff base position
relative to the surfaces of photoreceptor disk. FEBS Lett., 213, 113-118. IF=3.057.
16. Modyanov N.N., Arystarkhova E.A., Arzamazova N.M., Dzhandzhugazyan K.N., Efremov
R.G., Nabiev, I., Ovchinnikov Yu.A. (1987) Transmembrane organization of Na,K-ATPase:
Secondary structure of hydrophilic and hydrophobic regions in subunits of enzyme as probed by
optical spectroscopy. Biologicheskie Membrany [Biological Membranes], 4, 1244-1253 [in
Russian].
15. Abdullaev N.G., Nabiev, I., Efremov R.G., Chumanov G.D. (1986) Transverse location of the
Retinal aldimine of rhodopsin in photoreceptor disk membrane. Biologicheskie Membrany
[Biological Membranes], 3, 26-33 [in Russian].
14. Ovchinnikov Yu.A., Abdullaev N.G., Kiselev A.V., Nabiev, I., Vasileva Ch.V., Efremov R.G.
(1986) Tyrosine residue catalyze light-induced deprotonation of retinal Schiff's base in
bacteriorhodopsin. Biologicheskie Membrany [Biological Membranes], 3, 325-338 [in Russian].
13. Nabiev, I., Chumanov G.D. (1986) Surface-enhanced Raman spectroscopy of biopolymers:
water-soluble proteins, amino acids and dipeptides, adsorbed by silver electrodes and hydrosols.
Biofizika [Biophysics], 31, 183-190 [in Russian].
12. Nabiev, I., Efremov R.G. (1986) Surface-enhanced Raman spectroscopy of biopolymers:
nucleic acids adsorbed by silver electrodes and hydrosols. Biofizika [Biophysics], 31, 191-196 [in
Russian].
11. Nabiev, I., Efremov R.G., Chumanov G.D. (1986) Surface-enhanced Raman spectroscopy of
biopolymers: Membrane proteins bacteriorhodopsin and rhodopsin, adsorbed by silver electrodes
and hydrosols. Biofizika [Biophysics], 31, 724-734 [in Russian].
10. Nabiev, I., Chumanov G.D., Manykin E.A. (1985) Chemosorption of biomolecules on the metal
surface and its role in the effect of surface-enhanced Raman scattering. Izvestia VUZ MV i SSO
SSSR, Ser. Fizika [Proceedings of Higher Education Institutions of the Soviet Union, Ser.:
Physics], 3, 33-37 [in Russian].
9. Nabiev, I., Efremov R.G., Chumanov G.D. (1985) The chromophore-binding site of
bacteriorhodopsin. Resonance and surface-enhanced resonance Raman spectroscopy and quantum
chemical study. J. Biosciences, 8, 363-373.
8. Efremov R.G., Nabiev, I. (1985) Retinal Schiff's base microenvironment in the
bacteriorhodopsin. Biologicheskie Membrany [Biological Membranes], 2, 460-469 [in Russian].
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
7. Nabiev, I., Efremov R.G., Chumanov G.D., Kuryatov A.B. (1985) Retinal Schiff's base position
relative to purple membrane surface. Surface-enhanced Raman spectroscopy. Biologicheskie
Membrany [Biological Membranes], 2, 1003-1015 [in Russian].
6. Nabiev, I., Savchenko V.A., Efremov E.S. (1983) Surface-enhanced Raman spectroscopy of
aromatic amino acids and proteins adsorbed by silverhydrosols. J. Raman Spectrosc., 14, 375-379.
IF=2.00. Featured article.
5. Nabiev, I., Sargsyan A.S., Efremov E.S., Mikhaleva I.I., Ivanov V.T. (1982) Spatial structure of
sleep inducing peptide and its analogues. Laser Raman spectroscopy. Bioorganicheskaya Khimiya
[Bioorganic Chemistry], 8, 900-904 [in Russian].
4. Nabiev, I., Trakhanov S.D., Pletnev V.Z., Efremov E.S. (1981) Actynoxanthyne structure in
crystal and in water solution. Bioorganicheskaya Khimiya [Bioorganic Chemistry], 7, 832-835 [in
Russian].
3. Nabiev, I., Trakhanov S.D., Efremov E.S., Marinjuk V.V., Lazorenko-Manevich R.M. (1981)
Surface-enhanced Raman spectra of some biological molecules adsorbed by silver electrodes.
Bioorganicheskaya Khimiya [Bioorganic Chemistry], 941-945 [in Russian].
2. Nabiev, I., Pluzhnikov K.A., Trakhanov S.D., Efremov E.S., Tsetlin V.I. (1981) Comparative
study of toxins from Naja naja oxiana and toxin 3 from Naja naja siamensis snakes venom by
Raman spectroscopy. Bioorganicheskaya Khimiya [Bioorganic Chemistry], 7, 836-846 [in
Russian].
1. Vorotyntseva T.I., Surin A.M., Trakhanov S.D., Nabiev, I., Antonov V.K. (1981) Spectral
properties of leucine-isoleucine-valine-binding protein and its complexes with substrates.
Bioorganicheskaya Khimiya [Bioorganic Chemistry], 7, 45-57 [in Russian].
Published Communications
2021
266. Krivenkov, V., Dovzhenko, D., Samokhvalov, P., Kriukova, ., Sánchez-Iglesias, A.,
Grzelczak, M., Rakovich, Yu., Nabiev, I. (2021) Cavity-enhanced photoluminescence of
semiconductor quantum dot thin films under two-photon excitation. SPIE Photonics West 2021
Digital Forum, March 6–11, 2021. Oral presentation.
C265. Krivenkov, V., Samokhvalov, P., Nabiev, I., Rakovich, Yu. (2021) Quantum dot-based
plasmon-exciton emitters with improved one- and two-photon emission properties. SPIE Photonics
West 2021 Digital Forum, March 6–11, 2021. Oral presentation.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
264. Krivenkov, V., Dovzhenko, D., Samokhvalov, P., Kriukova, ., Sánchez-Iglesias, A.,
Grzelczak, M., Rakovich, Yu., Nabiev, I. (2021) Enhanced two-photon absorption and
photoluminescence of semiconductor quantum dots in nano- and micro-cavities. 6th International
Conference on Advances in Functional Materials, Jeju, Republic of Korea, February 15–17, 2021.
Oral presentation.
C263. Krivenkov, V., Samokhvalov, P., Nabiev, I., Rakovich, Yu. (2021) pH sensing platform
based on light-matter coupling in complexes of silver nanoplates and organic J-aggregates. 6th
International Conference on Advances in Functional Materials, Jeju, Republic of Korea, February
15–17, 2021. Oral presentation.
C262. Krivenkov, V.A., Samokhvalov, P.S., Nabiev, I.R., Rakovich, Yu.P. (2021) Influence of the
Purcell effect on the photoluminescence of quantum dots near the self-organized arrays of plasmon
nanoparticles. X International Conferenceon Photonics and Information Optics, Moscow, Russia,
January 27–29, 2021. Oral presentation.
C261. Granizo, E.A., Krivenkov, V.A., Nabiev, I.R. (2021) Fluorescence enhancement of single
quantum dot in PMMA film near silver nanoprism. X International Conferenceon Photonics and
Information Optics, Moscow, Russia, January 27–29, 2021. Oral presentation.
C260. Nifontova, G., Krivenkov, V., Zviagzne, M., Efimov, A., Korostylev, E., Zarubin, S.,
Karaulov, A., Nabiev, I., Sukhanova, A. (2021) Designing of layer-by-layer structured nanoparticle-
encoded polyelectrolyte microcapsules with controlled photoluminescence. 6th International
Conference on Advances in Functional Materials, Jeju, Republic of Korea, February 15–17, 2021.
Oral presentation.
C259. Nifontova, G., Krivenkov, V., Zviagzne, M., Efimov, A., Korostylev, E., Zarubin, S.,
Karaulov, A., Nabiev, I., Sukhanova, A. (2021) Hybrid nanoparticle-doped polyelectrolyte
microcapsules with controlled photoluminescence for bioimaging applications. ANNIC 2021 –
Applied Nanotechnology and Nanoscience International Conference, March 24–26, 2021. Oral
presentation.
C258. Kriukova, I., Samokhvalov, P., Nabiev, I. (2021) Hybrid luminescent systems on the base of
PbS nanocrystals and freestanding porous silicon microcavities in the near-infrared range. ANNIC
2021 – Applied Nanotechnology and Nanoscience International Conference, March 24–26, 2021.
Oral presentation.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C257. Kalenichenko, D., Nifontova, G., Sukhanova, A., Nabiev, I. (2021) Designing functionalized
polyelectrolyte microcapsules for cancer-cell-targeting and cancer treatment. ANNIC 2021 –
Applied Nanotechnology and Nanoscience International Conference, March 24–26, 2021. Oral
presentation.
C256. Tsoy, T., Karaulov, A., Nabiev, I., Sukhanova, A. (2021) Estimating the effect of
semiconductor quantum dot surface charge on their interaction with proteins. ANNIC 2021 –
Applied Nanotechnology and Nanoscience International Conference, March 24–26, 2021. Oral
presentation.
2020
C255. Nabiev, I.R. (2020) Polariton-assisted donor–acceptor role reversal in resonant energy
transfer between organic dyes strongly coupled to electromagnetic modes of a tuneable microcavity.
The 5th International Symposium and International School for Young Scientists on “Physics,
Engineering and Technologies for BioMedicine”, Moscow, Russia, November 21–25, 2020.
Invited lecture.
C254. Krivenkov, V.A., Samokhvalov, P.S., Nabiev, I.R., Rakovich, Yu.P. (2020) Strong
photoluminescence enhancement in a thin-film hybrid structure based on quantum dots and plasmon
nanoparticles. ICPEM 2020 – 2020 International Conference on Physics and Engineering
Mathematics, Beijing, China, November 7–8, 2020. Oral presentation.
C253. Krivenkov, V., Samokhvalov, P., Dyagileva, D., Nabiev, I. (2020) Absolute two-photon
absorption cross-sections of single-exciton states in semiconductor nanocrystals. SPIE Photonics
Europe Digital Forum, Strasbourg, France, April 10, 2020. Oral presentation.
C252. Dyagileva, D., Krivenkov, V.A., Samokhvalov, P.S., Nabiev, I.R. Rakovich, Yu.P. (2020)
Long-range coupling of individual quantum dots with plasmonic nanoparticles in a thin-film hybrid
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
material. SPIE Photonics Europe Digital Forum, Strasbourg, France, April 10, 2020. Oral
presentation.
2019
C251. Krivenkov, V., Goncharov, S., Samokhvalov, P., Sanchez-Iglesias, A., Grzelczak, M.,
Nabiev, I., Rakovich, Y. (2019) Modification of multiphoton emission properties of single quantum
dot due to the long-range coupling with plasmon nanoparticles in thin-film hybrid material. IV
International Conference on Applications of Optics and Photonics, Lisbon, Portugal, 31 May – 4
June, 2019. Oral presentation.
C250. Nabiev, I. (2019) Nanophotonic tools based on the conjugates of nanoparticles with the
single-domain antibodies for multi-photon micrometastases detection and ultrasensitive biochemical
assays. IV International Conference on Applications of Optics and Photonics, Lisbon, Portugal,
31 May – 4 June, 2019. Invited lecture.
C249. Zvaigzne, M., Krivenkov, V., Samokhvalov, P., Nabiev, I. (2019) The crucial role of surface
ligands in photostability of colloidal quantum dots. IV International Conference on Applications of
Optics and Photonics, Lisbon, Portugal, 31 May – 4 June, 2019. Oral presentation.
C248. Dovzhenko, D., Mochalov, K., Vaskan, I., Kryukova, I., Rakovich, Y., Nabiev, I. (2019)
Polariton-assisted emission of strongly coupled organic dye excitons in a tunable optical
microcavity. IV International Conference on Applications of Optics and Photonics, Lisbon,
Portugal, 31 May – 4 June, 2019. Oral presentation.
C247. Nifontova, G., Baryshnikova, M., Ramos-Gomes, F., Alves, F., Nabiev, I., Sukhanova, A.
(2019) Engineering of fluorescent biomaging tools based on quantum dot-encoded polyelectrolyte
microcapsules and their cancer cell targeting applications. IV International Conference on
Applications of Optics and Photonics, Lisbon, Portugal, 31 May – 4 June, 2019. Oral presentation.
C246. Krivenkov, V.A., Samokhvalov, P.S., Nabiev, I. (2019) Two-photon-activated light energy
conversion in quantum dot–purple membrane hybrid material. SPIE OPTICS +
OPTOELECTRONICS, Prague, Czech Republic, April 1–4, 2019. Poster presentation.
C245. Krivenkov, V.A., Samokhvalov, P.S., Chistyakov, A.A., Nabiev, I. (2019) Resonance energy
transfer from quantum dots to bacteriorhodopsin affects the saturation of two-photon absorption
under a pulsed femtosecond excitation. SPIE OPTICS + OPTOELECTRONICS, Prague, Czech
Republic, April 1–4, 2019. Poster presentation.
2017–2018
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C244. Goncharov, S.A., Krivenkov, V.A., Samokhvalov, P.S., Nabiev, I.R., Rakovich, Yu.P. (2018)
Luminescent properties of a thin-film nanohybrid material composed of quantum dots and gold
nanorods. In: Proceedings of VII International Conference on Photonics and Informational
Optics, Moscow: NRNU MEPhI, 356–357 [in Russian].
C243. Kryukova, I.S., Dovzhenko, D.S., Chistyakov, A.A., Nabiev, I.R. (2018) Engineering of free
photon crystals based on porous silicon. In: Proceedings of VII International Conference on
Photonics and Informational Optics, Moscow: NRNU MEPhI, 372–373 [in Russian].
C242. Nabiev, I., Ramos-Gomes, F., Alves, F., Chames, P., Baty, D., Sukhanova, A. (2018)
Advanced nanotools for imaging of solid tumors and circulating and disseminated cancer cells.
PCNSPA 2018—Photonic Colloidal Nanostructures: Synthesis, Properties, and Applications, St.
Petersburg, June 4–8, 2018. Invited lecture.
C241. Krivenkov, V.A., Samokhvalov, P.S., Chistyakov, A.A., Nabiev, I.R. (2018)
Photoelectrochemical response from quantum dots-bacteriorhodopsin hybrid material under near-
infrared two-photon excitation. PCNSPA 2018—Photonic Colloidal Nanostructures: Synthesis,
Properties, and Applications, St. Petersburg, June 4–8, 2018. Oral presentation.
C240. Kyzishchin, Y.A., Martynov, I.L., Osipov, E.V., Chistyakov, A.A., Nabiev, I.R. (2018)
Optimization of excitation and detection modes to detect ultra low quantity of semiconductor
quantum dots based on cadmium selenide. PCNSPA 2018—Photonic Colloidal Nanostructures:
Synthesis, Properties, and Applications, St. Petersburg, June 4–8, 2018. Oral presentation.
C239. Sukhanova, A., Chames, P., Baty, D., Ramos-Gomes, F., Alves, F., Nabiev, I. (2018)
Nanophotonic Functional Imaging and Related Nanotoxicity Issues. 5th International A.M.
Prokhorov Symposium onLasers in Medicine and Biophotonics. Section C: Photonics and
nanobiotechnology, St. Petersburg, June 4–8, 2018. Invited lecture.
C238. Goncharov, S.A., Krivenkov, V.A., Samokhvalov, P.S., Nabiev, I., Rakovich, Y.P. (2018)
Photoluminescence Properties of Thin-Film Nanohybrid Material Based on Quantum Dots and Gold
Nanorods. PCNSPA 2018—Photonic Colloidal Nanostructures: Synthesis, Properties, and
Applications, St. Petersburg, June 4–8, 2018. Oral presentation.
C237. Nabiev, I.R. (2017) Quantum dot conjugates in functional imaging and highly sensitive
biochemical assays. 2nd International Symposium “Physics, Engineering and Technologies for
Biomedicine”, October 10–14, 2017, Moscow, Russia, 66–67.
C236. Zvaigzne, M.A., Martynov, I.L., Samokhvalov, P.S., Nabiev, I.R., Chistyakov, A.A. (2017)
Fine-tuning of silica coating procedure for preparation of biocompatible and bright PbS/SiO2 QDs.
2nd International Symposium “Physics, Engineering and Technologies for Biomedicine”,
October 10–14, 2017, Moscow, Russia, 459–460.
C235. Samokhvalov, P., Linkov, P., Zvaigzne, M., Kosmynceva, A.V., Petrova, I.O., Krivenkov,
V.A., Sukhanova, A., Nabiev, I. (2017) Optical properties of complex core-multishell quantum dots.
2nd International Symposium “Physics, Engineering and Technologies for Biomedicine”,
October 10–14, 2017, Moscow, Russia, 371–372.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C234. Krivenkov, V., Samokhvalov, P., Chistyakov, A.A., Nabiev, I. (2017) Laser irradiation as a
tool to control the resonance energy transfer in bacteriorhodopsin-quantum dot bio-nano hybrid
material. 2nd International Symposium “Physics, Engineering and Technologies for
Biomedicine”, October 10–14, 2017, Moscow, Russia, 238–239.
C233. Nifontova, G., Baryshnikova M., Bozrova S., Sokolova, Z., Nabiev, I., Sukhanova, A. (2017)
Cytotoxicity of polyelectrolyte microcapsules encoded with semiconductor nanocrystals. 2nd
International Symposium “Physics, Engineering and Technologies for Biomedicine”, October
10–14, 2017, Moscow, Russia, 311–312.
C232. Nifontova, G., Sukhanova, A., Samokhvalov, P., Nabiev, I. (2017) Efficient encoding of
matrix microparticles with nanocrystals for fluorescent polyelectrolyte microcapsules development.
2nd International Symposium “Physics, Engineering and Technologies for Biomedicine”,
October 10–14, 2017, Moscow, Russia, 309–310.
C231. Bozrova S., Baryshnikova M., Sokolova, Z., Nabiev, I., Sukhanova, A. (2017) In vitro
cytotoxicity of CdSe/ZnS quantum dots and their interaction with biological systems. 2nd
International Symposium “Physics, Engineering and Technologies for Biomedicine”, October
10–14, 2017, Moscow, Russia, 149–150.
C230. Vokhmintcev, K., Linkov, P., Samokhvalov, P., Nabiev, I. (2017) Two-stage shell coating of
CuInS2 quantum dots for efficient phase transfer. 2nd International Symposium “Physics,
Engineering and Technologies for Biomedicine”, October 10–14, 2017, Moscow, Russia, 429–
430.
C229. Dovzhenko, D.S., Chistyakov, A.A., Nabiev, I. (2017) Modeling and optimization of the
porous silicon photonic structures. 2nd International Symposium “Physics, Engineering and
Technologies for Biomedicine”, October 10–14, 2017, Moscow, Russia, 163–164.
C228. Dovzhenko, D.S., Chistyakov, A.A., Nabiev, I. (2017) Porous silicon photonic crystal as a
substrate for high efficiency biosensing. 2nd International Symposium “Physics, Engineering and
Technologies for Biomedicine”, October 10–14, 2017, Moscow, Russia, 165–166.
2012–2016
C227. 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.
C226. 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.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C225. 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.
C224. 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.
C223. 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.
C222. 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.
C221. Vokhmintcev, K.V., Guhrenzb, C., Gaponik, N., Nabiev, I., Samokhvalov, P.S. (2016)
Quenching of quantum dot luminescence under light irradiation. Science of the Future. 2nd
International Scientific Conference. Kazan, Tatarstan, Russia, September 20–23, 2016.
C220. 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. Science of the Future. 2nd International Scientific
Conference. Kazan, Tatarstan, Russia, September 20–23, 2016.
C219. Bozrova, S.V., Baryshnikova, M.A., Nabiev, I., Sukhanova, A. (2016) Semiconductor
quantum dot toxicity in a mouse in vivo model. Science of the Future. 2nd International Scientific
Conference. Kazan, Tatarstan, Russia, September 20–23, 2016.
C218. Nabiev, I. (2016) Advanced multi-photon imaging and diagnostics with quantum dot-based
hybrid nanostructures. Science of the Future. 2nd International Scientific Conference. Kazan,
Tatarstan, Russia, September 20–23, 2016.
C217. Nabiev, I. (2016) Colloidal nanocrystals as novel materials for biomedical applications.
Science of the Future. 2nd International Scientific Conference. Kazan, Tatarstan, Russia,
September 20–23, 2016.
C216. 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.
Science of the Future. 2nd International Scientific Conference. Kazan, Tatarstan, Russia,
September 20–23, 2016.
C215. 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
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
Colloidal Nanostructures: Synthesis, Properties, and Applications, St. Petersburg, Russia, Jun 27–
Jul 1, 2016, 57-58.
C214. 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.
C213. 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.
C212. 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.
C211. 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.
C210. 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.
C209. 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.
C208. 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.
C207. 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.
C206. 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.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C205. 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.
C204. 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.
C203. 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.
C202. 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.
C201. 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.
C200. 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.
C199. 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.
C198. 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.
C197. 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.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C196. 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.
C195. Nabiev, I.R.. (2015) Nano–bio hybrid materials with energy transfer properties. MEPhI
Scientific Session 2015, 16–21 Feb 2015. Conference Life Science: High-Technology Medicine,
section Nanomaterials for Therapy, Diagnosis, and Treatment Monitoring. Oral presentation [in
Russian].
C194. 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.
C193. Nabiev, I. (2014) Nano-bio hybrid materials with the energy transfer properties. Science of
the Future: First International Conference. St. Petersburg, 17-20 Sep 2014. Oral presentation.
C192. Samokhvalov, P., Linkov, P., Nabiev, I. (2014) Modeling of quantum dot growth: Towards
rational development of nanomaterials with predictable properties. Science of the Future: First
International Conference. St. Petersburg, 17-20 Sep 2014. Oral presentation.
C191. Samokhvalov, P., Linkov, P., Nabiev, I. (2014) High quantum yield CdSe/ZnS/CdS/ZnS
multishell quantum dots for applications in biosensing and optoelectronics. Science of the Future:
First International Conference. St. Petersburg, 17-20 Sep 2014. Oral presentation.
C190. 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.
Science of the Future: First International Conference. St. Petersburg, 17-20 Sep 2014. Poster
presentation.
C189. 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. Science of the Future: First
International Conference. St. Petersburg, 17-20 Sep 2014. Poster presentation.
C188. Oleinikov, V., Generalova, A., Sizova, S., Mochalov, K., Nabiev, I., Zubov, V. (2014)
Fluorescent pH and temperature sensors based on hybrid nanoparticles. Science of the Future:
First International Conference. St. Petersburg, 17-20 Sep 2014. Poster presentation.
C187. 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. Science of the Future: First International Conference. St. Petersburg,
17-20 Sep 2014. Poster presentation.
C186. 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
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
semiconductor quantum dots and the membrane protein bacteriorhodopsin. Science of the Future:
First International Conference. St. Petersburg, 17-20 Sep 2014. Poster presentation.
C185. 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.
C184. 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.
C183. 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.
C182. 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.
C181. 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.
C180. 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.
C179. Mochalov, K., Bobrovsky, A., Efimov, A., Oleinikov, V., Linkov, P., Samokhvalov, P.,
Sukhanova, A., and 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. Invited paper.
C178. Efimov, A., Mochalov, K., Bobrovsky, A., Agapov, I.I., Chistyakov, A.A., Oleinikov, V.A.,
and 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. Invited paper.
C177. 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
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
engineered from purple membranes of Halophilic bacteria and semiconductor quantum dots.
International Workshop "Laser Physics," Prague, Czech Republic, July 2013. Invited paper.
C176. Nabiev, I., Hafian, H., Sukhanova, A., Chames, P., Baty, D., Pluot, M., Cohen, J.H.M.,
Millot, J.M. (2012) Bi-photon imaging and diagnostics with the ultra-small diagnostic probes
engineered from semiconductor nanocrystals and single-domain antibodies. In: Global Congress
on Nanosystems in Engineering and Medicine: Nano-Bio-Info Convergence, 10–13 Sep 2012,
Incheon, Republic of Korea. Invited paper.
C175. Sukhanova, A., Poly, S., Shemetov, A., Nabiev, I. (2012) Quantum dots induce charge-
specific amyloid-like fibrillation of insulin at physiological conditions. In: Global Congress on
Nanosystems in Engineering and Medicine: Nano-Bio-Info Convergence, 10–13 Sep 2012,
Incheon, Republic of Korea. Invited paper.
C174. 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. In: Global Congress on Nanosystems
in Engineering and Medicine: Nano-Bio-Info Convergence, 10–13 Sep 2012, Incheon, Republic
of Korea. Invited paper.
C173. Nabiev, I., Sukhanova, A., et al. 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.
C172. Oleinikov V.A., Sukhanova, A., 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.
C171. Nabiev, I., Sukhanova, A., Oleinikov, V. 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.
C170. Nabiev, I., Mochalov, K., et al. 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.
C169. Artemyev, M., Nabiev, I., et al. 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.
C168. Daineko, S., Chistyakov, A., Nabiev, I., et al. 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.
2011 and earlier
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C167. Sukhanova, A., Bouchonville, N., Rakovich, A., Le Cigne, A., Molinari, M., Rakovich, Yu.,
Donegan, J.F., Troyon, M., Oleinikov, V.A., Artemyev, M., Nabiev, I. Energy transfer from
quantum dots improves proton pumping and photovoltaic proprieties of membrane protein
bacteriorhodopsin within the QD/bacteriorhodopsin hybrid material. 241st ACS National
Meeting: Part of the Division of Fuel Chemistry symposium on “Solar Energy Conversion and
Utilization for Fuels and Energy Production." Anaheim, California, USA, March 27-31, 2011.
Invited paper.
C166. Rakovich, A., Sukhanova, A., Lukashev, E., Zagidullin, V., Pachenko, V., Rubin, A.B.,
Rakovich, Yu., Govorov, A., Nabiev, I., Donegan, J.F. Semiconductor quantum dots as light-
harvesting antennae for artificial photosynthesis applications. - Ibid. Invited paper.
C165. Nabiev, I. Nano-bio energy conversion and vectorisation within the hybrid materials
engineered from colloidal quantum dots and biological molecules. Workshop on Hybrid
Materials in the Institute of Physics and Chemistry of Materials, University of Strasbourg,
France, 15/12/2010. Invited paper.
C164. Nabiev, I. Nanodiagnostics of Micrometastases. Workshop of the Program ANR-PNANO,
MINATEC (Micro and Nanotechnologies Innovation Campus), Grenoble, France, 24/11/2010.
Invited paper.
C163. G. Rousserie, W. Mahmoud, K. Even-Desrumeaux, A. Kisserli, S. Poly, B. Reveil, T. Tabary,
P. Chames, D. Baty, V. Oleinikov, J.M. Millot, M. Pluot, J. Cohen, I. Nabiev, A. Sukhanova.
Advanced labeling of monoclonal and single-domain antibodies with quantum dots: toward new
generation of ultra-small specific nanoprobes. 7th International Conference on Biomedical
Applications of Nanotechnology, December 2-3, 2010, Logenhaus, Berlin.
C162. Nabiev, I. Bioenergetics with Nanocrystals. Meeting of French Chemical Society, 15
October 2010, Reims, France. Invited paper.
C161. Nabiev, I. Bioenergetics with Nanocrystals: Energy transfer between nanostructures and
biological supramolecular complexes effects biological function. 5th International Conference on
Surfaces, Coatings and Nanostructured Materials, 19-21 October 2010, Reims, France.
C160. Nabiev, I., Sukhanova, A., Bouchonville, N., Molinari, M. Troyon, M., Cohen, J.H.M.
“Bioenergetics with nanocrystals." NANAX – 4: Nanoscience with Nanocrystals. International
Conference, April 11-15, 2010, Munich – Tutzing, Germany. Invited paper.
C159. Nabiev, I. Chemistry and Physics behind energy transfer from nanostructures to bio-
supramolecular photosensitive complexes. Workshop Nanoscience: Chemistry and Physics
Behind Supramolecular Science, organized by ollege de France and Fundación Botín, San
Sebastian – Donostia, 16 July 2010. Invited paper.
C158. Bouchonville, N., Molinari, M., Sukhanova, A., Troyon, M., Nabiev, I. Fluorescence
measurements and AFM imaging of Bacteriorhodopsin coupled with CdSe quantum dots for
optoelectronic applications. Nano2009: Perspectives in Nanoscience and Nanotechnology, San
Sebastian, Spain, 28-30/09/2009. Invited paper.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C157. Rakovich, A., Sukhanova, A., Bouchonville, N., Molinari, M., Troyon, M., Rakovich, Y.,
Donegan, J.F., Nabiev, I. Energy transfer in hybrid material engineered from photochromic
membrane protein bacteriorhodopsin and semiconductor quantum dots. Nano2009: Perspectives in
Nanoscience and Nanotechnology, San Sebastian, Spain, 28-30/09/2009.
C156. Nabiev, I., Cohen, J.H.M., Pluot, M., Sukhanova, A. Fluorescent nanocrystals for
multiplexed detection on the liquid-states and solid-state microarrays and chips. School of Physics,
Trinity College Dublin & CRANN, Ireland, 8-10 January 2009. Invited paper.
C155. Nabiev, I., Sukhanova, A., Reveil, B., Tabary, T., Donvito, B., Pluot, M., Cohen, J.H.M.
(2009) Nano-bio hybrid materials with desired energy harvesting and transfer properties.
European Community Workshop "Towards Zero-Power ICT (2zeroP)" research challenges:
Deepening Understanding of this new FET research area. Brussels, 23-24 June 2009. Invited
paper.
C154. Sukhanova, A., Pluot, M., Cohen, J.H.M., Nabiev, I. (2009) Nanodiagnostics of Autoimmune
Diseases. 6 Conference "Nanobiotechnology and Cellular Biology," Moscow, Russia, 12-
17/07/2009. Invited paper.
C153. Nabiev, I., Pluot, M., Cohen, J.H.M., Sukhanova, A. (2009) Highly specific quantum dots
conjugates for cancer diagnostics. 6 Conference "Nanobiotechnology and Cellular Biology,"
Moscow, Russia, 12-17/07/2009. Invited paper.
C152. Nabiev, I., Rakovich, A., Sukhanova, A., Bouchonville, N., Molinary, M., Troyon, M.,
Rakovich, Y.P., Donegan, J.F., Govorov, A.O. Resonance Energy Transfer from Semiconductor
Quantum Dots Improves Biological Function of Bacteriorhodopsin within the “Bacteriorhodopsin-
Quantum Dot” Hybrid Material. Nano South-West European Conference (NanoSWEC).
“Bioinspired nanosystems and nanomaterials," Université de Bordeaux, Novembre 2-4, 2009.
Invited paper.
C151. Govorov, A.O., Rakovich, A., Sukhanova, A., Lukashev, E., Zagidullin, V., Pachenko, V.,
Rakovich, Yu.P., Donegan, J.F., Rubin, A.B., Nabiev, I. Nanostructures Comprising Photosynthetic
Reaction Centers and Semiconductor Nanoparticle Antennas: Energy transfer and Light-harvesting.
Nano South-West European Conference (NanoSWEC). “Bioinspired nanosystems and
nanomaterials." Université de Bordeaux, Novembre 2-4, 2009.
C150. Nabiev, I. (2008) Fluorescent nanocrystals «quantum dots» as bio-detecting and medical
diagnostic tools. Trinity College Dublin, Ireland, 21 November 2008. Invited paper.
C149. Nabiev, I. (2008) NanoOptics with Nanocrystals. 5 International Conference
"Nanobiotechnology and Cellular Biology," Moscow, Russia, 10-15 July 2008. Invited paper.
C148. Nabiev, I. (2008) Multifunctional fluorescents nanocrystals for tumour vectorisation and
medical diagnostics in FRET-format. Scientific Debates “Immuno-targeting of Tumours,"
Montpellier, 23-24 June 2008. Invited paper.
C147. Nabiev, I. (2008) Multifunctional fluorescents nanocrystals for tumour vectorisation and
intracellular delivery. 3d Conference of the Axe “Tumour Vectorisation” of Cancéropôle
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
Grand Ouest - "What Chemistry we Need for Tumour Vectorisation?," Nantes, 15-17 June
2008. Invited paper.
C146. Nabiev, I. (2008) Fluorescent semiconductor nanocrystals operating in the FRET-format for
ultrasensitive detection and medical diagnosis. Nanooptics Conference of C'Nano Grand Est,
Troyes, 28-29 April 2008. Invited paper.
C145. Nabiev, I. (2008) Nano-bio hybrid materials with energy transfer properties. International
Conference "Interactions in Hybrid Nanosystems," Frauenwörth, hiemsee, Germany, May 1-4,
2008. Invited paper.
C144. Nabiev, I. (2008) FRET effect in the nanocrystals assemblies. Conference “Colloidal
Quantum Dots for Biomedical Applications II," a part of SPIE's Photonics West Symposium,
San Jose, California, January 19-24, 2008. Invited paper.
C143. Nabiev, I. (2007) Intracellular delivery of semiconductor quantum dots: principles and
applicaitons. 3rd
International Conference “Nanobiotechnology and Cellular Biology,"
Moscow, Russia, July 14-19, 2007. Invited paper.
C142. Nabiev, I. (2007) Lab-in a-drop: Self-organsisation of semiconductor nanocrystals within the
polycrystalline structures with desired optical properties. Conférence Internationale TMS Annual
Nano-Meeting & Exhibition, 25 février – 1 mars, 2007; Orlando, Florida, USA. Invited paper.
C141. Nabiev, I. (2007) Nanotechnology and Cancer. Colloque Franco-Irelandaise "Sciences de
la Vies," 22-24 janvier 2007, Dublin, Ireland. Invited paper.
C140. Sukhanova, A., Oleinikov, V., Artemyev, M, Pluot, M., Cohen, J.H.M., Nabiev, I. (2006)
FRET-based nanosensors for ultrasensitive detection of autoimmune diseases. Proc. Conférence
Internationale "Nanobiotechnology and Cellular Biology," Moscou, Russie, juillet 11-19, 2006.
Invited paper.
C139. Sukhanova, A., Baranov, A.V., Cohen, J.H.M., Pluot, M., Nabiev, I. (2006) Controlled self-
assembly of nanocrystals in polycrystalline fluorescent dendrites with energy-transfer properties.
Proc. Conférence Internationale "NaNaX 2 — Nanoscience with Nanocrystals," Grenoble/Autrans, janvier 07-10, 2006. Invited paper.
138. Joumaa, N., Lansalot, M., Théretz, A., Elaissari, A., Sukhanova, A., Artemyev, M., Nabiev,
I., Cohen, J.H.M. (2005) Synthesis of quantum dots-tagged polystyrene particles by miniemulsion
polymerization. Proc. Conférence Internationale 8th "Polymers for Advanced Technologies"
International Symposium, Budapest, Hungary, Septembre 13-16, 2005.
C137. Sukhanova, A., Venteo, L., Artemyev, M, Pluot, M., Cohen, J.H.M., Nabiev, I. (2005)
Biocompatible semiconductor nanocrystals: from synthesis to immunolabelling. Proc. Conférence
Internationale "Nanobiotechnology and Cellular Biology," Moscou, Russie, Juillet 15-20, 2005.
Invited paper.
C136. Sukhanova, A., Venteo, L., Artemyev, M, Pluot, M., Cohen, J.H.M., Nabiev, I. (2005) Bio-
functionalization and self-organization of CdSe/ZnS core/shell photoluminescent semiconductor
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
nanocrystals. Proc. Conférence Internationale "Nanobiotechnology and Cellular Biology,"
Moscou, Russie, Juillet 15-20, 2005.
C135. Sukhanova, A., Stsiapura, V., Artemyev, M., Pluot, M., Cohen, J.H.M., Nabiev, I. (2004)
Biocompatible fluorescent nanocrystals and nanocrystals-embedded latexes for immunolabeling of
membrane proteins and cells. Proc. "Quantum Dots-2004" Conference, 9-13 May 2004, Banff,
Alberta, Canada. Available at: www.qd2004.com. Invited paper.
C134. Sukhanova, A., Stsiapura, V., Wargnier, R., Baranov, A., Artemyev, M., Pluot, M., Cohen,
J.H.M., Nabiev, I. (2004) Energy transfer in aqueous solutions of oppositely charged CdSe/ZnS
core/shell quantum dots and in quantum dot-nanogold assemblies : Biosensors “molecular
beacons." Proc. "Quantum Dots-2004" Conference, 9-13 May 2004, Banff, Alberta, Canada.
Available at :
C133. Venteo, L., Bronner, C., Schneider, L., Sukhanova, A., Bronstein, I., Nabiev, I., Pluot, M.
(2003) Immuhistochimie des topoisomérases I et Iia, de la protéine ICB90 et de Ki67 dans des
tumeurs vésicales; intérêt potentiel dans le traitement. Ann Pathol. HS n°1, p.139.
C132. Sukhanova, A., Nabiev, I. (2003) Biocompatible fluorescent semiconductor nanocrystals:
immunochemical and immunohistochemical labeling of membrane proteins and cells and FRET
applications. Proc. of SFB486 Conference “Nanoscience with nanocrystals," Munich, Germany,
6-7 October 2003, p.14. Invited paper.
C131. Artemyev, M., Oleinikov, V., Klinov, D., Bronstein, I., Offen, W., Sukhanova, A., Devy, J.,
Kaplan, H., Nabiev, I. (2003) Immunolabeling of membrane proteins and cells by highly fluorescent
cadmium selenide nanocrystals. Physics, Chemistry and Application of Nanostructures,
Borisenko, V.E., Gaponenko, S.V., and Gurin, V.S., eds., World Scientific, NJ-London-Singapore-
Hong Kong, 331-336.
C130. Sukhanova, A., Devy, J., Venteo, L., Wargnier, R., Artemyev, M., Oleinikov, V., Cohen,
J.H.M., Pluot, M., Nabiev, I. (2002) Nouveaux systèmes d’immunomarquage ultrasensibles par des
nanocristaux fluorescents rendus solubles et biocompatibles: perspectives en cancérologie.
XXIIème Forum de Cancérologie, Paris, 4-6 Juin 2002 - Bulletin du Cancer, 89, p.476.
C129. Wargnier, R., Devy, J., Cohen, J.H.M., Pluot, M., Duval, O., Nabiev, I., Sukhanova, A.
(2002) Stabilité comparative du complexe entre l’AND topoisomérase I et l’ADN en présence de
dérives de camptothécines et de benzo[c]phénanthridines. XXIIème Forum de Cancérologie,
Paris, 4-6 Juin 2002, - Bulletin du Cancer, 89, p.526. Invited paper.
C128. Nabiev, I., Mochalov, K., Ustinova, O., Sukhanova, A., Jardillier J.-C., Oleinikov V. The
structure of clevable ternary complexes of human DNA topoisomerase I, DNA and topotecan in
solution probed by Raman and CD spectroscopy. Anticancer Research, 2001, 21, No.3A, p.1551-
1552. Invited paper.
C127. Oleinikov, V., Sukhanova, A., Artemyev, M., Baranov, A., Sharapov, O., Jardillier, J.C.,
Nabiev, I. (2001) Water-soluble semiconductor nanocrystal probes for fluorescence analysis of
biological objects. Proc. of Intl Conference on Molecular Medicine, Puchino, Moscow Region, 12-
14 September 2001, p. 57-58. Invited paper.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C126. Oleinikov V. Mochalov, K., Ustinova, O., Zhuze, A., Streltsov, S., Sukhanova, A., Jardillier
J.-C., Nabiev, I. Raman spectroscopy study of DNA binding by topotecan, inhibitor of DNA
topoisomerase I. Anticancer Research, 2001, 21, No.3A, p.1552-1553.
C125. Devy, J., Wargnier, R., Nabiev, I., Jardillier, J.C., Sukhanova, A. (2001) Topotecan-Induced
Alterations of Quantity, Activity and Stability of Human DNA Topoisomerase I within the Solid
Tumor Cell Lines. Anticancer Research, 2001, 21, No.3A, p.1544-1545.
C124. Sukhanova, A., Devy, J., Wargnier, R., Grokhovsky, S., Zhuze, A., Jardillier, J.C., Nabiev, I.
(2001) Camptothecin and minor-groove binder netropsin hybrid molecule: synthesis, inhibition of
DNA human topoisomerase I, and anticancer cytotoxicity in vitro. Anticancer Research, 2001, 21,
No.3A, p.1554-1555.
C123. Venteo, L., Sukhanova, A., Bronstein, I., Nabiev, I., Pluot, M. (2001) Immunohistochemical
Analysis of DNA Topoisomerase I in Human Gliomas. Anticancer Research, 2001, 21, No.3A,
p.1555-1556.
C122. Oleinikov, V., Mochalov, K., Ustinova, O., Zhuze, A., Streltsov, S., Nabiev, I. (2001) Raman
and SERS spectroscopy study of interaction of anticancer drug topotecan with DNA. Proc. of the
First Intl. Conf. on Advanced Vibrational Spectroscopy ICAVS-1. Turku, Finland, 2001, P18.226.
Invited paper.
121. Pluot, M., Ventéo, L., Bronstein, ., Nabiev, I., Sukhanova A. Imunoexpression of DNA
topoisomérase I in a series of human gliomas Proc. of 18th
European Congress of Pathology,
Berlin, September 8-13 2001 - Virchows Archiv, 2001, 439, 473.
120. Ventéo, L., Schneider, L., Panayiotides, J., Sukhanova, A., Nabiev, I., Pluot, M.
Immunohistochimie de la topoisomérase I et de la topoisomérase IIa sur résections endoscopiques
de carcinomes de la prostate Proc. 16èmes Journées de Recherche en Pathologie Cellulaire
(Groupe de Pathologie Cellulaire et Moléculaire), Carrefour Pathologie 2001, Paris, 12-16
Novembre - Ann. Pathol., 2001, 1, S14
119. Pluot, M., Ventéo, L., Desoize, B., Nabiev, I. Expression immunohistochimique de la
topoisomérase I dans une série de gliomes Association des Neuro-Oncologues d’Expression
Française (ANOCEF), Reims, 6-7 Avril 2001 – Rev. Neurol. (Paris), 2001.
C118. Sukhanova, A., Devy, J., Pluot, M., Bradley, J.C., Vigneron, J.P., Jardillier, J.C., Lehn, J.M.,
Nabiev, I. (2000) Human DNA topoisomerase I inhibitory activities of synthetic polyamines :
relation to DNA aggregation.Proc. of 91st Annual Meeting of American Association for Cancer
Research, March 2000, San Francisco, CA, USA, vol. 41, pp. 283. Invited paper.
C117. Nabiev, I., Streltsov, S., Mikheikin, A., Sukhanova, A., Grokhovsky, S., Zhuze, A., Kudelina,
I., Jardillier, J.C. (2000) Human DNA topoisomerase I inhibitory activities of synthetic polyamines :
relation to DNA aggregation. Proc. of 91st Annual Meeting of American Association for Cancer
Research, March 2000, San Francisco, CA, USA, vol. 41, pp. 144.
C116. Sukhanova, A., Oleinikov, V., Grokhovskiy, S., Zhuze, A.L., Jardillier, J.C., Nabiev, I.
(2000) Molecular Determinants of Human DNA Topoisomerase I Inhibition by Antitumor Agents,
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
Probed by SERS, Raman and Flow Linear Dichroism Techniques. Proc. XVIIth Int. Conf. on
Raman Spectroscopy, August 2000, Beijing, China, p. 996-997. Invited paper.
C115. Oleinikov, V., Mochalov, K., Sukhanova, A., Ermishev, M., Grokhovskiy, S., Zhuze, A.L.,
Jardillier, J.C., Nabiev, I. (2000) Raman Spectroscopy of DNA-Topotecan Complexes. Proc. XVII
Int. Conf. on Raman Spectroscopy, August 2000, Beijing, China, p. 1012-1013.
C114. Oleinikov, V., Fleury, F., Ianoul, A., Baggetto L., Jardillier, J.C., Nabiev, I. (2000) Effect of
P-Glycoprotein on the Lipids Organization in the Membranes of the MDR Cells. Raman
Spectroscopy Study. Proc. XVIIth Int. Conf. on Raman Spectroscopy, August 2000, Beijing,
China, p. 994-995.
C113. Oleinikov, V., Ermishev, M., Mochalov, K., Grokhovskiy, S., Zhuze, A.L., Nabiev, I. (2000)
Raman Scattering Spectroscopy Study of the DNA Structural Alterations Induced by the Antitumor
Minor Groove Binders bis-Netropsines and Polyamines. Proc. of XXV Europ. Congress on
Molecular Spectroscopy. August 2000, Portugal, p. 62. Invited paper.
C112. Oleinikov, V., Mochalov, K., Sukhanova, A., Ermishev, M., Streltsov, S., Grokhovskiy, S.,
Zhuze, A.L., Jardillier, J.C., Nabiev, I. (2000) Raman Spectroscopy Study of Topotecan Complexes
with DNA and Nucleosides. Proc. of XXV Europ. Congress on Molecular Spectroscopy. August
2000, Portugal, p. 318.
C111. Oleinikov, V., Flery, F., Ianoul A., Baggetto, L.G., Jardillier, J.C., Ustinova O., Nabiev, I.
(2000) Raman Spectroscopy Study of the Influence of P-Glycoprotein on the Lipid Membrane
structure of the Multidrug Resistance Cells. Proc. of XXV Europ. Congress on Molecular
Spectroscopy. August 2000, Portugal, p. 314.
C110. Oleinikov, V., Sychev, S., Chinarev A., Ermishov M., Kovner M., Bovin N., Nabiev, I.
(2000) Raman Spectroscopy Study of Tectomer, New Type of Antiviral Compounds. Proc.of XXV
Europ. Congress on Molecular Spectroscopy. August 2000, Portugal, p. 362.
C109. Sukhanova, A., Ermishev, M., Devy, J., Grokhovski, S., Zhuze, A., Jardillier, J.C., Nabiev, I.
Bis-netropsins topologically alter duplex DNA and modulate camptothecine–dependent DNA
cleavage by the human DNA topoisomerase I. Topoisomerases in Chemotherapy, October 1999,
Amsterdam, p.111. Invited paper.
C108. Streltsov, S, Mikheikin, A., Sukhanova, A., Grokhovsky, S., Zhuze, A., Jardillier, J.C.,
Nabiev, I. Topotecan Dimer Binds Two DNA Molecules: A Potential Mechanism for Drug-Induced
Modulation of Topoisomerase I–DNA Specific Recognition. Topoisomerases in Chemotherapy,
October 1999, Amsterdam, p.46.
C107. Oleinikov V.A, Kovner M.A, Kudelina I.A., Kryukov E., Shiyan S., Bovin N., Nabiev, I.
Influence of glycan of alpha-1-acid glycoprotein on the structural organization of their polypeptide
chain. Raman scattering and circular dichroic study. Second Congress of Biophysics of Russia.
Proceedings. Moscow, 1999, V.1, p.69-70. Invited paper.
C106. Oleinikov V.A., Kovner M.A., Kryukov E.Yu., Kudelina I.A., Shiyan S.D., Bovin N.V.,
Nabiev, I. Effect of carbohydrate moiety on the secondary structure of a1-acid glycoprotein. Raman
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
scattering and circular dichroic spectroscopy study. Spectroscopy of Biological Molecules: New
Directions, J. Greve, G.J. Puppels, C. Otto, eds., Kluwer Academic Publisher, 1999, 335-336.
C105. Oleinikov V.A., Kovner M.A., Ermishov M.A., Tuzikov A.B., Bovin N.V., Nabiev, I. Raman
spectroscopy of sialic acids. Spectral bands of α-(2→3)- and α-(2→6)-sialyl linkages of
oligosaccharides. Spectroscopy of Biological Molecules: New Directions, J. Greve, G.J. Puppels,
C. Otto, eds., Kluwer Academic Publisher, 1999, 331-332.
C104. Kryukov, E., Ermishov, M., Sukhanova, A., Oleinikov, V., Grokhovski, S., Zhuze, A.,
Jardillier, J.C., Nabiev, I. Raman spectroscopy study of specific DNA binding by bis-netropsins.
Spectroscopy of Biological Molecules: New Directions, Greve J., Puppels G. J., Otto C., eds.,
Kluwer Academic Publisher, August 1999, Amsterdam, p.299-300.
C103. Sukhanova, A., Kryukov, E., Grokhovsky, S., Zhuze, A., Kudelina, I., Jardillier, J.C., Nabiev,
I. (1999) New bis-netropsins: Comparative studies of their DNA-binding and modulation of human
DNA topoisomerase I cleavable complexes with and without camptothecin. Proc. 90th Annual
Meeting of American Association for Cancer Research, April 1999, Philadelphia, PA, USA, vol.
40, pp. 111.
C102. Fleury, F., Sukhanova, A., Ianoul, A., Kudelina, I., Duval, O., Waigh, R., Jardillier, J.C.,
Nabiev, I. (1999) Structure-function correlation in fagaronine and ethoxidine-induced modulation
of DNA cleavage by human DNA topoisomerase I. Proc. 90th Annual Meeting of American
Association for Cancer Research, April 1999, Philadelphia, PA, USA, vol. 40, pp. 112. Invited
paper.
C101. Fleury, F., Sukhanova A., Devy, J., Ianoul, A., Nabiev, I., Jardillier, J.C., Duval, O.,
Baggetto, L. (1999) Molecular Determinants of Antitumor Activity of Benzo[c]phenantridines
Fagaronine and Ethoxidine. Proc. of American Association for Cancer Research Conference
Molecular Determinants of Sensitivity to Antitumor Agents, Voncouver, April 1999, p.12.
C100. Fleury F., Ianoul A., Baggetto L., Jardillier J.C., Alix A.J.P., Nabiev, I. Raman, SERS, and
Induced Circular Dichroism Techniques as a Probe of Pharmaceuticals in Their Interactions with
the Human Serum Albumin and P-Glycoprotein. Proc. of SPIE Conference on Biomedical
Applications of Raman Spectroscopy, 1999, pp. 80-89. Invited paper.
C99. Nabiev, I. Kryukov E., Fleury F., Sukhanova A., Ianoul A., Bronstein I., Alix A.J.P. and
Jardillier J.C. Selective Optical Spectroscopy Studies of Supramolecular Complexes Formed by
Antitumor Drugs: Inhibitors of Human DNA Topoisomerases. Abstracts of International
Symposium on Biomedical Optics. January 23- 29, 1999, San Jose, USA, p. 233.
C98. Oleinikov V.A., Kryukov E.Yu., Tarabara V.V., Feofanov A.V., Tuzikov A.B., Shiyan S.D.,
Bovin N.V., Nabiev, I. Raman Spectroscopy Study of Sialic Acid of Glycoproteins. Search for
Characteristic Bands. Proceedings of the 16th
International Spectroscopy on Raman
Spectroscopy, September 6-11, 1998, Cape Town, South Africa, Heyns A.M., Ed., John Wiley &
Sons, Chichester , 1998, p.306-307.
C97. Kryukov E.Yu., Sukhanova A.V., Grokhovsky S.L., Zhuze A.L., Nabiev, I. Comparative study
of binding of bis-netropsins to DNA-substrate. SERS spectroscopy approach. Ibid., pp. 388-389.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C96. Feofanov A.V., Mochalov K.E., Tarabara V.V., Ermishov M.A., Nabiev, I., Sergeeva T.V.,
Iakubovskaya R.I. SERS spectroscopy approach to analysis of in vivo pharmacokinetics and
biodistribution of cobalt octacarboxyphtalocyanine. Ibid., pp. 278-279.
C95. Kryukov E.Yu., Sukhanova A.V., Grokhovsky S.L., Zhuze A.L., Nabiev, I. DNA-binding of
bis-netropsins as studied by means of surface-enhanced Raman scettering spectroscopy. XXIV
European Congres on Molecular Spectroscopy. Book of Abstracts. Prague, Czech Republic, 23-
26 August 1998. P. 215. Invited paper.
C94. Oleinikov V., Kryukov E., Feofanov A., Kovner M., Tuzikov A., Shiyan S., Bovin N., Nabiev,
I. Raman Spectroscopy of Sialic Acid as a Part of Olygosaccharides and Glycoproteins. Ibid., p.
280.
C93. Ianoul A., Fleury F., Nabiev, I. Interactions of camptothecin with human serum albumin:
Raman and circular dichroism spectroscopy study. Abstracts of 7th Int. Conf. Laser Applications
in Life Sciences. August 24-28, 1998, Bratislava, Slovak Republic, P1-18.
C92. Feofanov A., Charonov S., Kudelina I., Fleury F., Nabiev, I. Intracellular interactions and
distributin of anticancer drug mitoxantrone at the different phases of cell cycle in K562 and
multidrug resistant K562R cancer cells as probed by confocal spectral imaging technique. Ibid.,
S2-5.
C91. Collery P., Ianoul A., Fedirko V., Eremtchenko M., Nabiev, I. (1997) Scanning probe
microscopy imaging of DNA topological transformations induced by human topoisomerase I.
Anticancer Res., 17, 6A, 4071. Invited paper.
C90. Fedirko V.A, Eremtchenko M.D., Collery P., Nabiev, I., Yanul A.I. Scanning probe
microscopy imaging of DNA structure modification. Ibid., 4077.
C89. Fleury F., Ianoul A., Kudelina I., Berjot M., Alix A.J.P., Feofanov A., Nabiev, I. Interactions
within the camptotecin-HSA complexes probed by Raman, fluorescence and CD spectroscopy.
Ibid., 4086.
C88. Feofanov A., Charonov S., Fleury F., Kudelina I., Nabiev, I. Cell cycle analysis of
mitoxantrone within K562 cells as probed by confocal spectral imaging technique. Ibid., 4086.
C87. Fleury F., Kryukov E., Bronstein I., Ianoul A., Berjot M., Alix A.J.P., Wilkinson A., Dodson
G., Feofanov A., Nabiev, I. Raman spectroscopy of human topoisomerase I: target for antitumor
drugs. Ibid., 4087.
C86. Fleury F., Ianoul A., Kryukov E., Sukhanova A., Bronstein I., Alix A.J.P., Jardillier J.C.,
Nabiev, I. (1998) Raman and CD Spectroscopy of Recombinant 68-kDa DNA Human
Topoisomerase I and its Complex with Suicide DNA-Substrate. Anticancer Res., 18, 6C, 4919-
4920.
C85. Sukhanova A, Krukov E., Grokhovsky S., Zhuze A., Bronstein I., Nabiev, I. (1998)
Comparative Studies of the New Bis-Netropsins DNA Binding and Their Modulation of Activity of
Human DNA topoisomerase I. Anticancer Res., 18, 6C, 4954-4955.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C84. Oleinikov V., Feofanov A., Ianoul A., Kryukov E., Shiyan S., Bovin N., Nabiev, I. (1997) The
Structure of Carbohydrate Chains of a1-Acid Glycoprotein. SERS Study. European Biophys. J., 30.
C83. Feofanov A., Charonov S., Kudelina I., Fleury F., Manfait M., Nabiev, I. (1997) Confocal
Spectral Imaging Analysis of Mitoxantrone Interactions in Living Cells. European Biophys. J., 108.
Invited paper.
C82. Collery Ph., Ianoul A., Fedirko V., Eremtchenko M., Nabiev, I. (1997) Scanning Probe
Microscopy Imaging of DNA Topological Transformations Induced by Human Topoisomerase I.
Anticancer Res., 17, 6A, 4071.
C81. Fleury F., Ianoul A., Kudelina I., Berjot M., Alix A.J.P., Feofanov A., Nabiev, I. (1997)
Interactions within the Camptothecin-HSA Complexes Probed by Raman, Fluorescence and CD
Spectroscopy. Anticancer Res., 17, 6A, 4086.
C80. Feofanov A., Sharonov S., Fleury F., Kudelina I., Nabiev, I. (1997) Cell Cycle Analysis of
Mitoxantrone within K562 Cells as Probed by Confocal Spectral Imaging Technique. Anticancer
Res., 17, 6A, 4086.
C79. Fleury F., Krukov E., Bronstein I., Ianoul A., Berjot M., Alix A.J.P., Wilkinson A., Dodson G.,
Feofanov A., Nabiev, I. (1997) Raman Spectroscopy of Human Topoisomerase I: Target for
Antitumor Drugs. Anticancer Res., 17, 6A, 4087.
C78. Fleury F., Kudelina I., Berjot M., Alix A.J.P., Nabiev, I. Structure of Camptothecin’s
Complexes with Human Serum Albumin probed by CD, Fluorescence and Raman Spectroscopy.
Spectroscopy of Biological Molecules: Modern Trends, Carmona P., Navarro R, and Hernanz A.,
eds., Kluwer Academic Publishers, Dordrecht, Boston, London, 1997, pp.41-42. Invited paper.
C77. Feofanov A., Ianoul A., Oleinikov V., Nabiev, I. SERS Titration Procedure as a Probe of
Complexation Between Ionophores and Metal Cations. Spectroscopy of Biological Molecules:
Modern Trends, Carmona P., Navarro R, and Hernanz A., eds., Kluwer Academic Publishers,
Dordrecht, Boston, London, 1997, pp.513-514.
C76. Iakubovskaya E., Kudelina I., Feofanov A., Gabibov A., Bronstein I., Dodson G., Nabiev, I.
Relaxation of Supercoiled Plasmid DNA by DNA Topoisomerase I as Probed by Flow Linear
Dichroism Technique. Spectroscopy of Biological Molecules: Modern Trends, Carmona P.,
Navarro R, and Hernanz A., eds., Kluwer Academic Publishers, Dordrecht, Boston, London, 1997,
pp.165-166.
C75. Oleinikov V., Feofanov A., Ianoul A., Kryukov E., Shiyan S., Bovin N., Nabiev, I. SERS
Spectroscopy of Carbohydrate Chains of a-Acid Glycoprotein. Spectroscopy of Biological
Molecules: Modern Trends, Carmona P., Navarro R, and Hernanz A., eds., Kluwer Academic
Publishers, Dordrecht, Boston, London, 1997, pp.277-278.
C74. Kryukov E., Feofanov A., Moskalenko A., Nabiev, I. Resonance Raman Spectroscopy Studies
of Photosynthetic Carotenoid-Deficient Chromatophores of Rhodospirillum Rubrum. Spectroscopy
of Biological Molecules: Modern Trends, Carmona P., Navarro R, and Hernanz A., eds., Kluwer
Academic Publishers, Dordrecht, Boston, London, 1997, pp.135-136.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C73. Fleury F., Ianoul A., Kudelina I., Bronstein I., Alix A.J.P., Dodson G., Feofanov A., Nabiev, I.
Conformation and Mechanism in DNA Topoisomerase I as a Target of Antitumor Drugs: Optical
Spectroscopy Approach. Spectroscopy of Biological Molecules: Modern Trends, Carmona P.,
Navarro R, and Hernanz A., eds., Kluwer Academic Publishers, Dordrecht, Boston, London, 1997,
pp.373-374. Invited paper.
C72. Oleinikov V.A., Kovner M.A., Feofanov A.V., Tarabara V.V., Kryukov E.Yu., Nabiev, I.
Interpretation of Raman and SERS Spectra of a-Methyl Glycoside N-Acetylneuraminic Acid.
Spectroscopy of Biological Molecules: Modern Trends, Carmona P., Navarro R, and Hernanz A.,
eds., Kluwer Academic Publishers, Dordrecht, Boston, London, 1997, pp. 281-282. Invited paper.
C71. Ianoul A., Feofanov A., Oleinikov V., Nabiev, I. New Procedure of Quantification of the
Metal Ions Level in Solution Based on the SERS Spectroscopy. Spectroscopy of Biological
Molecules: Modern Trends, Carmona P., Navarro R, and Hernanz A., eds., Kluwer Academic
Publishers, Dordrecht, Boston, London, 1997, Annex, pp.117-118. Invited paper.
C70. Tarabara V., Nabiev, I., Feofanov A. Thio-organically Modified Silver Citrate Hydrosol for
SERS Study of Biomolecules. Spectroscopy of Biological Molecules: Modern Trends, Carmona
P., Navarro R, and Hernanz A., eds., Kluwer Academic Publishers, Dordrecht, Boston, London,
1997, Annex, pp.115-116.
C69. Kryukov E., Feofanov A., Oleinikov V., Zaitsev S., Gromov S., Fedorova O., Alfimov M.,
Nabiev, I. SERS spectroscopy as a new technique of analytical chemistry. 1. The study of structural
organization of amphiphilic crown-ether styryl dye in Langmuir-Blodgette films. Proc. of
International Congress on Analytical Chemistry, Moscow 1997, v. 2, p. L-79.
C68. Tarabara V., Nabiev, I., Feofanov A. SERS spectroscopy as a new technique of analytical
chemistry. 2. Thio-organically modified SERS-active substrate for analyte microprobing in
multicomponent mixtures. Proc. of International Congress on Analytical Chemistry, Moscow
1997, v.1, p. C-37.
C67. Feofanov A., Ianoul A., Gromov S., Fedorova O., Alfimov M., and Nabiev, I. SERS
spectroscopy as a new technique of analytical chemistry. New probe of ionophore complexation
with metal cations. Proc. of International Congress on Analytical Chemistry, Moscow 1997, v.2,
p. L-80.
C66. Feofanov A., Kudelina I., Sharonov S., Fleury F., Manfait M., and Nabiev, I. Subcellular
distribution, interactions and metabolization of mitoxantrone within living cancer cells as probed by
confocal spectral imaging analysis. Proc. of International Congress on Analytical Chemistry,
Moscow 1997, v.2, p. L-86.
C65. Iakubovskaya E., Kudelina I., Feofanov A., Bronstein I., Nabiev, I., Gabibov A. Flow Linear
Dichroism technique in the kinetic studies of enzymatic reactions changing DNA topology. Proc. of
International Congress on Analytical Chemistry, Moscow 1997, v.2, p. P-20.
C64. Oleinikov V., Feofanov A., Kryukov E., Ianoul A., Tuzikov A., Bovin N., Nabiev, I. SERS
spectroscopy as a new technique of analytical chemistry. 3. Detection of sialic acid residues and the
study of their organization in glycoproteins, glycolipids and synthetic polymers. Proc. of
International Congress on Analytical Chemistry, Moscow 1997, v.2, p. P-29. Invited paper.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C63. Feofanov A., Ianoul A., Kryukov E., Oleinikov V., Zaitsev S., Gromov S., Fedorova, O.,
Alfimov M., Nabiev, I. Light-controlled selective regulators of transmembrane transport of metal
ions. Crown ether dyes: structural role of dimer’s formation in the ion-binding function. Metal Ions
in Biology and Medicine, 1996, vol.4, pp. 6-8.
C62. Feofanov A.V., Ianoul A.I., Oleinikov V.A., Gromov S.P., Fedorova O.A., Alfimov M.V.,
Nabiev, I. SERS Spectroscopy study of photochromic ionophores. Benzothiazolium crown-ether
styryl dyes, their complexes with Mg2+
and dimers. Proc. XV Intern. Conf. Raman Spectrosc.,
August 1996, Pittsburgh, pp. 712-713. Invited paper.
C61. Oleinikov V.A., Feofanov A.V., Kryukov E.Yu., Ianoul A.I., Tuzikov A.B., Shiyan S.D.,
Bovin N.V., NABIEV I. SERS-active surface as a probe of biological activity of sialylated
molecules. Ibid., pp.1130-1131.
C60. Feofanov A.V., Baranov A.V., Fleury F., Manfait M., and Nabiev, I. SERS and UV RR
Spectroscopy Study of Topoisomerase I and its Complexes with DNA and Antitumor Drugs. Ibid.,
pp. 524-525.
C59. Maskevich S., Vasilyuk G., Sveklo I., Nabiev, I. SERS-active Substrata on the Basis of
Modified Thin Silver Films. Comparative Atomic-Force Microscopy and SERS Study. Ibid., pp.630-
631
C58. Kryukov E.Yu., Feofanov A.V., Moskalenko A.A., Maskevich S.A., Nabiev, I. Thin Silver
Films and Annealed Silver Films as SERS-Active Substrates for the Study of Bacterial
Photosynthetic Memabranes, Complexes and Assembles. Ibid., pp.664-665.
C57. Fleury F., Kudelina I., Manfait M., Alix A.J.P., Nabiev, I. Self-Aggregation Increases
Antitumor Effects of Camptothecin Drugs: Raman, SERS, CD, Fluorescence and UV-vis
Observation of J-Aggregates. Ibid., pp. 1128-1129.
C56. Feofanov A., Ianoul I., Kryukov E., Gromov S., Fedorova O, Nabiev, I., Alfimov M.
Photochromic Crown Ether styryl DyesPotential Light- Controlled Selective Regulators of
Transmembrane Transport of Metal Ions. SERS Spectroscopy Study. Proc. of III Int. Symp. on
Bioorganic Chemistry, Dagomys 1995, p. 74. Invited paper.
C55. Feofanov A., Kudelina I., Fleury F., Sharonov S., Nabiev, I., Manfait M. Molecular
Interactions of Mitoxantrone with DNA and Other Cellular Targets at Different Stages of Cell
Cycle. In vitro and In situ Studies by Fluorescence Spectroscopy and Confocal Spectral Micro-
Imaging Analysis. Ibid., p. 32.
C54. Oleinikov V., Kryukov E., Maskevich S., Sveklo I., Kivach L., Ianoul A., Nabiev, I. Annealed
SERS-Active Surfaces for The Structural and Functional Studies of Supramolecular Complexes
Topology. Ibid., p. 93.
C53. Oleinikov V., Tuzikov A., Ianoul A., Sokolov K., Kryukov E., Shiyan S., Nabiev, I., Bovin N.
SERS Spectroscopy Study of Sialylated Biopolymers. Ibid., p. 94.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C52. Kudelina I., Manfait M., Nabiev, I. Binding Modes and Biological Effects for Intoplicine
Derivatives. Ibid., p. 43.
C51. Kudelina I., Feofanov A., Manfait M., Nabiev, I. Spectroscopic and Biochemical
Characterization of Aggregates Formed by Antitumor Drugs of Camptothecins Family. Do They
Play a Role in the Unique Mode of Drug Action? Ibid., p. 84.
C50. Feofanov A., Ianoul A., Oleinikov V., Gromov S., Fedorova O., Nabiev, I., Alfimov M.
Crown Ether Dyes - Potential Light Controlled Selective Regulators of Transmembrane Transport
of Metal Ions. Dimer Formation for Dye/Mg Complexes Probed by SERS Spectroscopy.
Spectroscopy of Biological Molecules. Merlin, J.C., Turrell, S., Huvenne, J.P., eds. Kluwer
Academic Publishers: Dordrecht, Boston, London, 1995, pp 397-398. Invited paper.
C49. Maskevich S., Sveklo I., Feofanov A., Ianoul A., Oleinikov V., Fedorova O., Gromov S.,
Nabiev, I., Alfimov M., Kivach L. Annealing of Glass-Deposited Silver Island Films Lead to
Creation of Regular SERS-Active Surfaces. Comparative Scanning Tunnel Microscopy and SERS
Study.Ibid., pp 27-28.
C48. Caudin J.P., Beljebbar A., Sockalingum G.D., Nabiev, I., Angiboust J.F., Manfait M. NIR FT-
Raman and FT-SERS Microspectroscopy Combined with Thin Layer Chromatography for
Biological Applications.Ibid., pp 31-32.
C47. Nabiev, I., Fleury F., Beljebbar A., Manfait M. Spectroscopic Characterization of Stable Self-
Aggregates Formed by Antitumor Drugs of the Camptothecin's Family: Do They Play a Critical
Role in the Unique Mode of Drug Action?Ibid., pp 541-542.
C46. Nabiev, I., Fleury F., Riou J.F., Chourpa I., Beljebbar A., Pommier Y., Manfait M. Raman,
FT-Raman, SERS, and Circular Dichroism Studies of Structure-Activity Relationship of
Topoisomerase Inhibition by Camptothecin Derivatives.Ibid., pp 545-546.
C45. Beljebbar A., Nabiev, I., Manfait M. Spatially Resolved FT-SERS Spectroscopy Enables to
Analyse Molecular Interactions of DNA-Intercalating Ring Systems and Side-Chain Groups of
Antitumor Drugs Within the Supramolecular Complexes. Ibid., pp 571-572.
C44. Sharonov S., Feofanov A., Chourpa I., Nabiev, I., Manfait M. Confocal Three- Dimensional
Spectral Imaging Analysis: Biomedical and Industrial Applications. Proc. of 14-th International
Conference on Raman Spectroscopy. Yu, N.-T., X.-Y. Li, eds.; Wiley, 1994, pp.876-877.
C43. Chourpa I., Nabiev, I., Manfait M. Comparative SERS Study of Two Anticancer Drugs, m-
AMSA and o-AMSA. Do Drugs Induce Their Effects at the DNA Level?Ibid., p. 598-599.
C42. Nabiev, I., Chourpa I., Kudelina I., Manfait M. Molecular and Cellular Interactions of
Topoisomerase-Targeting Antitumor Drugs as Probed by SERS Spectroscopy.Ibid., p. 656-657.
C41. Chourpa I., Sharonov S., Nabiev, I., Morjani H, Gruson K., Feofanov A., Manfait M. (1994)
Confocal Spectral Imaging Analysis in Cancer Research by Means of Scanning
Raman/Fluorescence Microprobe. Intracellular Studies and in vitro Modeling. Proc. Am. Assoc.
Cancer Res., 35, 385.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C40. Nabiev, I., Sokolov K., Oleinikov V., Yanul A., Feofanov A., Shiyan S., Tuzikov A., and
Bovin N. Surface-Enhanced Raman Scattering Spectroscopy in the Studies of Sialylated
Biopolymers Proc. of Int. Conf. on Biology and Chemistry of Sialic Acids, Moscow 1994, pp. 16-
18.
C39. Feofanov A., Fleury F., Sharonov S., Morjani H., Nabiev, I., Manfait M. Intracellular
Molecular Interactions and Distribution of Mitoxantrone within Single Living Cancer Cells.
Confocal Spectral Imaging Analysis. Proc. of International Conference on Spectral Imaging
Analysis in Biology and Medicine, Orlean 1994, pp.73-74.
C38. Manfait M., Chourpa I., Sokolov K., Morjani M., Riou J.-F., Lavelle F., Nabiev I.
Intercalating and Non-Intercalating Antitumor Drugs: Structure-Function Correlations As Probed
by Surface-Enhanced Raman Spectroscopy. Spectroscopy of Biological Molecules,
T.Theophanides, ed. Kluwer Academic Publishers, Dordrecht, 1993 p.59-64. Invited paper.
C37. Sharonov S., Chourpa I., Nabiev, I., Manfait M. Combination of Confocal Spectral and
Conventional Imaging Analysis: Highly Precise Technique for Analysis of Space Distribution of
Antitumor Drugs inside Single Living Cell.Ibid., p. 397-398.
C36. Oleynikov V., Nabiev, I., Sokolov K., Ozga P., Manfait M. Practical Substrates and
Techniques for Analytical Testing, Identification and Structural Studies of Biological, Biomedical
and Related Organic Molecules by Surface-Enhanced Raman Spectroscopy.Ibid., p.393-394.
C35. Oleinikov V., Sokolov K., Nabiev, I., Cotton T., Uphaus R. Optical Properties of Structure
Prepared on the Base of Nuclear Filter Technology. Preparation of Substrates for Trace Analysis by
SERS Spectroscopy. Proc. of 3d Int. Conf. on Particle Track Membranes and Their
Applications. Starosta W. and Buczkowski, eds., 1993, Jachranka, Poland, pp.67-71. Invited paper.
C34. Nabiev, I. UV Raman Studies of Biological Systems. Anal.Chem.& Appl.Spectrosc., 1992,
New Orleans, p.32.
C33. Feofanov A.V., Efremov R.G., Nabiev, I. Vibronic Structure of Adenine Ring Derived from
UV Resonance Excitation Profiles of ATP. Proceedings of XIII International Conference on
Raman Spectroscopy. Kiefer W. et al., eds., Wiley, 1992, p.306-307. Invited paper.
C32. Efremov R.G., Feofanov A.V., Gulyaev D.I., Nabiev I., Vergoten G. UV Resonance Raman
Spectroscopy as a Sensitive Tool to Study the Hydrophobic Properties of Aromatic Residues
Surroundings in Globular and Membrane Proteins. Ibid., p.482-483.
C31. Manfait M., Riou J.-F., Morjani H., Lavelle F., Nabiev, I. Comparative Study of Interactions
of the Antitumour Agent RP 60475 with DNA-Topoisomerase II and in Living Cell as Probed by
SERS Spectroscopy. Ibid., p.520-521.
C30. Hodorchenko P.V., Sokolov K.V., Nabiev, I. Contribution of Short Range and Classical
Electromagnetic Mechanisms to SERS from Different Types of Biomolecules Adsorbed on Cold-
Deposited Island Film. Ibid., p.630-631.
C29. Nabiev, I., Manfait M. Biomedical Applications of Surface-Enhanced Raman Spectroscopy.
Ibid., p.666-667.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C28. Sokolov K.V., Hodorchenko P.V., Bovin N.V., Nabiev, I. Comparative Study of Structure and
Biological Activity of Synthetic and Natural Inhibitors of Influenza Virus as Probed by SERS. Ibid.,
p.682-683.
C27. Manfait M., Morjani H., Efremov R., Angiboust J.-F., Polissiou M., Nabiev, I. High-Sensitive
Detection of Intracellular Carotenoids in Single Living Cancer Cells as Probed by Surface-
Enhanced Raman Microspectroscopy. Spectroscopy of Biological Molecules. R.E.Hester &
R.B.Girling, eds., The Royal Society of Chemistry, 1991, p.303-304.
C26. Millot J.-M., Morjani H., Aubard J., Pantigny J., Nabiev, I., Manfait M. Micro-SERS Analysis
of Ellipticine Interaction in Living Cancer Cells. Ibid., p.305-306.
C25. Nabiev, I., Sokolov K.V., Morjani H., Manfait M. Surface-Enhanced Raman Spectroscopy of
Nucleic Acids and Antitumour Drugs/Nucleic Acids Complexes in vitro and in Living Cells. Ibid.,
p.345-348.
C24. Maskevich S.A., Sokolov K.V., Kivach L.N., Chumanov G.D., Streckal N.D., Nabiev, I.
Surface-Enhanced Raman Spectroscopy of Cocarboxylase and Pyruvate Complexes, Raman
Spectroscopy. Durig J.R., Sullivan J.F. Chichester, eds. N.Y. - Brisbane - Toronto - Singapore:
Wiley, 1990, p.300-301.
C23. Nabiev I., Sokolov K.V., Hodorchenko P.V. Determination of the Local Destabilization
Regions in the DNA Double Helix as Probed by Surface-Enhanced Raman Spectroscopy, Ibid.,
p.318-319.
C22. Feofanov A.V., Efremov R.G., Nabiev I. UV Resonance Raman Spectroscopy of Membrane
Proteins. II. Involvement of Tyr and Trp Residues in the Photochemical Processes in Visual and
Bacterial Rhodopsins, Ibid., p.544-545.
C21. Efremov R.G., Feofanov A.V., Dzhandzhugazyan K.N., Nabiev I. UV Resonance Raman
Spectroscopy of Membrane Proteins. I. Microenvironment of ATP in the Active Site of Na,K-
ATPase, Ibid., p.670-671.
C20. Sukhov D.A., Feofanov A.V., Valov P.M., Efremov R.G., Evstigneev E.I., Nabiev I. Detection
and Structure of Lignine in the Cellulosic Materials in situ as Probed by Surface-Enhanced Raman
Spectroscopy. Ibid., p.826-827.
C19. Nabiev I., Sokolov K.V., Efremov R.G., Chumanov G.D. Surface-Enhanced Raman
Spectroscopy in the Structural Studies of Biomolecules. State of the Art. Laser Applications in Life
Sciences. Part I: Laser Diagnostics of Biological Molecules and living Cells - Linear and
Nonlinear Methods. Akhmanov S.A., Poroshina M.Yu., eds. SPIE, 1990, vol. 1403, 85-92. Invited
paper.
C18. Baranov A.V., Nabiev I. Surface-Enhanced Resonance Hyper-Raman Spectra of
Bacteriorhodopsin Adsorbed on Silver Colloids. Ibid., p.128-131.
C17. Efremov R.G., Feofanov A.V., Nabiev I. UV Resonance Raman Spectroscopic Study of Trp
Residues in Hydrophobic Environment. Ibid., p.161-163.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C16. Oleynikov V.A., Sokolov K.V., Hodorchenko P.V., Nabiev I. Polynuclear Membranes as a
Substrate for Obtaining Surface-Enhanced Raman Scattering Films. Ibid., p.164-166.
C15. Manfait M., Morjani H., Millot J.-M., Debal V., Angiboust J.-F., Nabiev I. Drug-Target
Interactions on a Single Living Cell. An Approach by Optical Spectroscopy. Ibid., Part II: Lasers
in Biophysics and Biomedicine, p.695-707.
C14. Nabiev I., Efremov R.G., Sokolov K.V. Surface-Enhanced Raman Studies of Membrane
Proteins and Nucleic Acids: Topography and Secondary Structure of Biomolecules. Spectroscopy
of Biological Molecules. State of the Art. A.Bertoluzza, C.Fagnano, P.Monti, eds. Bologna: SEE,
1989, p. 17-20.
C13. Efremov R.G., Feofanov A.V., Dzhandzhugazyan K.N., Nabiev I. UV Resonance Raman
Spectroscopic Study of ATP-Binding Site in Na,K-ATPase. Ibid., p.191-192.
C12. Nabiev I., Efremov R.G. Surface-Enhanced Raman Spectroscopy of Biomolecules,
Spectroscopic and Structural Studies of Materials and Systems of Fundamental Importance to
Biology and Medicine. Ustron, 1988, p.121-136. Invited paper.
C11. Nabiev I., Efremov R.G. Surface-Enhanced Raman Spectroscopy of Membrane Proteins,
Raman Spectroscopy. R.J.H.Clark, D.A.Long, eds. Chichester - N.Y. - Brisbane - Toronto -
Singapore: Wiley, 1988, p.185-186.
C10. Efremov R.G., Nabiev I., Arystarkhova E.A. Secondary Structure of Hydrophobic and
Hydrophilic Regions in Subunits of Na,K-ATPase. Raman Spectroscopic Study. Ibid., p.787-788.
C9. Nabiev I. Surface-Enhanced Raman Spectroscopy of Biomolecules: Picogram Level of
Detection, Topography of Membrane Bound Complexes, Structure-Function Correlations, Laser
Scattering Spectroscopy of Biological Molecules. Pecs, 1987, p.20-22. Invited paper.
C8. Nabiev I., Efremov R.G., Abdulaev N.G. Transverse Location of the Retinal Aldimine of
Rhodopsin in Photoreceptor Disk Membrane, Retinal Proteins. Irkutsk, 1986, p.77-78. Invited
paper.
C7. Nabiev I., Efremov R.G., Chumanov G.D., Abdulaev N.G. Transverse Location of Retinal
Schiff's Base in Bacteriorhodopsin and Rhodopsin. Surface-Enhanced Raman Spectroscopy and
Quantum Chemical Study, Spectroscopy of Biological Molecules. A.J.P.Alix, L.Bernard,
M.Manfait, eds. Chichester - N.Y. - Brisbane - Toronto - Singapore: Wiley, 1985, p. 348-350.
Invited paper.
C6. Nabiev I., Efremov R.G., Kiselev A.V. The Chromophore-Binding Site of Bacteriorhodopsin.
Resonance Raman and Surface-Enhanced Resonance Raman Spectroscopy and Quantum Chemical
Study, Biological Membranes. Calcutta, 1984, 5-6. Invited paper.
C5. Nabiev I., Trakhanov S.D., Surin A.M., Efremov E.S., Pletnev V.Z. Optical Spectroscopy Study
of Substrate Binding by Leucinespecific and Leucineisoleucinevaline Binding Proteins from E.coli,
Chemistry of Peptides and Proteins. W-Berlin, 1983, 64-70.
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
C4. Nabiev I. Surface-Enhanced Raman Scattering Applications to the Study of Biological
Molecules, Lasers in Biology. Moscow, 1983, 104-108. Invited paper.
C3. Efremov E.S., Nabiev I., Nurkhametov A.H. LaserRaman Spectroscopy of Proteins and
Peptides, Steric Effects in Macromolecules. Eger, 1981, 24-27.
C2. Efremov E.S., Nabiev I., Nurkhametov A.H. Laser Raman Spectroscopy of Sleep Inducing
Peptide and Apamine, Molecular Spectroscopy. Albena, 1980, 450-452.
C1. Ivanov V.T., Sargsyan A.S., Mikhaleva I.I., Balashova T.I., Efremov E.S., Nabiev I., Deshko
T.N., Balaban P.I. Physico-Chemical and Biological Properties of Sleep Inducing Peptide and its
Analogues, Peptide Chemistry. Copenhagen, 1980, p.1-7.
Patents and Know-How
B31. Sokolov P.M., Samokhvalov P.S., Nabiev I.R. A device for harvesting solar radiation in a
wide wavelength range for solar panels. Utility model. Patent no. 194493 Registered in the RF State
Registry of Utility Models 12 Dec 2019 [in Russian].
B30. Sokolov P.M., Nabiev I.R., Nifontova, G.O. A carrier for diagnosis, targeted delivery, and
controlled release of pharmaceutical agents. Utility model. Patent no. 196226. Registered in the RF
State Registry of Utility Models 21 Feb 2020 [in Russian].
B29. Sokolov P.M., Dovzhenko D.S., Samokhvalov P.S., Nabiev I.R. A flow cell for conducting
chemical reactions. Utility model. Patent no. 195095. Registered in the RF State Registry of Utility
Models 15 Jan 2020 [in Russian].
B28. Sokolov P.M., Nabiev I.R., Nifontova, G.O. A kit for photodynamic therapy. Invention.
Patent no. 2740552. Registered in the RF State Registry of Inventions 15 Jan 2021 [in Russian].
B27. Sokolov P.M., Nabiev I.R., Nifontova, G.O. Sokolov P.M., Nabiev I.R., Nifontova, G.O. A
carrier for diagnosis, targeted delivery, and controlled release of pharmaceutical agents. Invention.
Patent no. 2693485. Registered in the RF State Registry of Inventions 3 Jul 2019 [in Russian].
B26. Nabiev I.R., Sokolov P.M., Samokhvalov P.S., Dovzhenko D.S., Rakovich Yu.P. A substrate
for binding molecules of the sample in an oriented manner for subsequent modification of the
sample molecule properties. Utility model. Patent no. 190370. Registered in the RF State Registry
of Utility Models 28 Jun 2019 [in Russian].
B25. Sokolov P.M., Dovzhenko D.S., Samokhvalov P.S., Nabiev I.R. A device for harvesting solar
radiation and generating charge carriers for transparent solar cells. Utility model. RF Patent no.
188920. Registered in the RF State Registry of Utility Models 29 Apr 2019 [in Russian].
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
B24. Nabiev I.R., Sukhanova A.V., Tkachuk A.P., Sokolov P.M. A kit for differential diagnosis of
diseases. Invention. RF Patent no. 2701742. Registered in the RF State Registry of Inventions 1
Oct 2019 [in Russian].
B23. Nabiev I.R., Mochalov K.E., Rakovich Yu.P., Sokolov P.M., Dovzhenko, D.S., Mezin A.V.
Method for modification of the properties of the sample molecules and the device for its
implementation. Invention. RF Patent no. 2666853. Registered in the RF State Registry of
Inventions 12 Sep 2018 [in Russian].
B22. Nabiev I.R., Sukhanova A.V., Terekhin V.V. A method for fabrication of populations of
magnetic fluorescent microbeads. Invention. RF Patent application no. 2016125966. Application
date: 29 Jun 2016 [in Russian].
B21. Mochalov K.E., Efimov A.E., Sokolov P.M., Nabiev I.R. A scanning probe nanotomograph
with an optic analyzer module. Invention. RF Patent no. 2645437. Registered in the RF State
Registry of Inventions 21 Feb 2018 [in Russian].
B20. Sokolov P.M., Sukhanova A.V., Bozrova S.V., Nabiev I.R. A method of biological imaging.
Invention. RF Patent no. 2639125. Registered in the RF State Registry of Inventions 19 Dec 2017
[in Russian].
B19. Sukhanova A.V., Bilan R.S., Terekhin V.V., Nabiev I.R. A method of fabrication of an
analytical test system based on suspension microarrays for detecting disease markers. Invention. RF
Patent no. 2638787. Registered in the RF State Registry of Inventions 15 Dec 2017 [in Russian].
B18. Sokolov P.M., Sukhanova A.V., Nabiev I.R. A method of targeted destruction of cancer cells.
Invention. RF Patent no. 2638446. Registered in the RF State Registry of Inventions 13 Dec 2017
[in Russian].
B17. Bilan, R.S., Sukhanova, A.V., Nabiev, I.R. A method for fabrication of arrays of microbeads
optically encoded with fluorescent nanocrystals and carrying capture biomolecules on their surface.
Invention. RF Patent no. 2624853. Registered in the RF State Registry of Inventions 7 Jul 2017 [in
Russian].
B16. Nabiev I.R., Samokhvalov P.S. A versatile adapter for the use of planar microarrays in flatbed
readers for immunofluorescent analysis. Utility model. RF Patent no. 172401. Registered in the RF
State Registry of Utility Models 6 Jul 2017 [in Russian].
B15. Dovzhenko, D.S., Bilan, R.S., Samokhvalov, P.S., Vokhmintcev, K.V., Sukhanova, A.V.,
Nabiev, I.R. A method for fabrication of a regenerable biosensor based on a photonic crystal–affine
molecule complex. Invention. RF Patent no. 2618606. Registered in the RF State Registry of
Inventions 4 May 2017 [in Russian].
B14. Linkov, P.A., Samokhvalov, P.S., Nabiev, I.R. Synthesis of ultrasmall photoluminescent
semiconductor quantum dots. Know-how Registration date: 16 June 2016 [in Russian].
B13. Dayneko, S.V., Chistyakov, A.A., Nikitenko, V.R., Nabiev, I.R., Samokhvalov, P.S.,
Lypenko, D.A., Dmitriev, A.V., Maltsev, E.I., Nosova, G.I., Berezin, I.A., Yakimansky, A.V. A
hybrid light-emitting diode structure based on organic semiconductors and semiconductor
Prof. Igor Nabiev Complete List of Publications as of May 4, 2021
nanoparticles. Utility model. RF Patent no. 161294. Registered in the RF State Registry of Utility
Models 20 Apr 2016 [in Russian].
B12. Samokhvalov, P.S., Linkov, P.A., Nabiev, I.R. Manufacturing of luminescent CdSe/ZnS
core/shell quantum rods. Know-how. Registration date: 18 Dec 2015 [in Russian].
B11. Sukhanova, A.V., Nabiev, I.R. A method for engineering a nanosized diagnostic probe based
on conjugations of nanoparticles and single-domain antibodies. RF Patent no. 2560699. Registered
in the RF State Registry of Inventions 22 Jul 2015 [in Russian].
B10. Generalova, A.N., Sukhanova, T.V., Sizova, S.V., Manokhina, V.V., Mochalov K.E.,
Oleinikov, V.A., Nabiev, I.R. A method for the formation of multifunctional microsystems. RF
Patent no. 2532559. Registered in the RF State Registry of Inventions 10 Sep 2014 [in Russian].
B9. Sukhanova, T.V., Shchapov, A.F., Manokhina, V.V., Nabiev, I.R., Oleinikov, V.A., Sizova,
S.V. A method for incorporation of quantum dots into porous calcium carbonate particles through
co-precipitation. Invention. RF Patent no. 2509057. Registered in the RF State Registry of
Inventions 10 Mar 2014 [in Russian].
B8. Samokhvalov, P.S., Nabiev, I.R. Nanocrystal Builder. Computer Software. Reg. no.
2013661188. Registered in the RF State Registry of Computer Software 29 Nov 2013.
B7. Samokhvalov, P.S., Linkov, P.A., Nabiev, I.R. Manufacturing of alloyed CdSSe/ZnS core/shell
quantum dots. Know-how. Registration date: 8 July 2013 [in Russian].
B6. Samokhvalov, P.S., Linkov, P.A., Artemyev, M.V., Nabiev, I.R. Manufacturing of luminescent
CdSe/ZnS core/shell quantum dots. Know-how. Registration date: 8 July 2013 [in Russian].
B5. Nabiev, I., Sukhanova, A., Govorov, A. A hybrid nanostructure composed of a natural
photosystem and semiconductor nanoparticles. Patent Application N° PCT/US09/62443 of 28
October 2009. Université de Reims hampagne-Ardenne and University of Ohio, Athens, USA.
B4. Nabiev, I., Sukhanova, A., Cohen, J.H.M. One-dimensional, two-dimentional and three-
dimensional self-organinized structures of fluorescent semiconductor nanocrystals and method for
preparing and using said structures. Patent application WO2006131662 of 9 Jun 2005.
B1-B3. Nabiev, I., Sukhanova, A., Jardillier, J.-C., Artemyev, M., Baranov, A., Sharapov, O. (2001)
Patent Application WO02073155, Ultrasensitive non-isotopic water-soluble nanocrystals, all
counties, date of priority: 09 Mar 2001. Patentsissued in 2006 and 2009: EP1366347A1;
WO02073155A1.