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International Research and Educational Center for Physics of Nanostructures

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  1. 94Natalin N.V., Kundelev E.V., Rukhlenko I.D., Tepliakov N.V. Optical Properties of Twisted Bilayer Graphene with Magnetic Defects // Electronic Structure - 2023, Vol. 5, No. 5, pp. 024008. doi: 10.1088/2516-1075/acdbf5 [SJR: 0.656]
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  2. 93Kundelev E.V., Strievich E.D., Tepliakov N.V., Murkina A.D., Dubavik A., Ushakova E.V., Baranov A.V., Fedorov A.V., Rukhlenko I.D., Rogach A.L. Structure-Optical Property Relationship of Carbon Dots with Molecular-like Blue-Emitting Centers // Journal of Physical Chemistry C - 2022, Vol. 126, No. 42, pp. 18170–18176. doi: 10.1021/acs.jpcc.2c05926 [IF: 4.536, SJR: 0.914]
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  3. 92Ansari M.A., Kim I., Rukhlenko I.D., Zubair M., Yerci S., Tauqeer T., Mehmood M., Rho J. Engineering spin and antiferromagnetic resonances to realize an efficient direction-multiplexed visible meta-hologram // Nanoscale Horizons - 2020, Vol. 5, No. 1, pp. 57-64. doi: 10.1039/C9NH00460B [SJR: 1.735]
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  4. 91Ansari M.A., Kim I., Rukhlenko I.D., Zubair M., Yerci S., Tauqeer T., Mehmood M., Rho J. Erratum: Engineering spin and antiferromagnetic resonances to realize an efficient direction-multiplexed visible meta-hologram (Nanoscale Horizons (2020) 5 (57-64) DOI: 10.1039/C9NH00460B) // Nanoscale Horizons - 2020, Vol. 5, No. 2, pp. 373. doi: 10.1039/d0nh90006k [SJR: 1.735]
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  5. 90Hajian H., Ozbay E., Rukhlenko I.D., Hanson G.W., Low T., Butun B. Tunable plasmon-phonon polaritons in anisotropic 2D materials on hexagonal boron nitride // Nanophotonics - 2020, Vol. 9, No. 12, pp. 3909-3920. doi: 10.1515/nanoph-2020-0080 [IF: 4.492, SJR: 1.765]
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  6. 89Kundelev E.V., Tepliakov N.V., Leonov M.Y., Maslov V.G., Baranov A., Fedorov A.V., Rukhlenko I.D., Rogach A.L. Toward Bright Red-Emissive Carbon Dots through Controlling Interaction among Surface Emission Centers // Journal of Physical Chemistry Letters - 2020, Vol. 11, No. 19, pp. 8121-8127. doi: 10.1021/acs.jpclett.0c02373 [IF: 9.353, SJR: 1.394]
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  7. 88Tepliakov N.V., Orlov A.V., Kundelev E.V., Rukhlenko I.D. Twisted Bilayer Graphene Quantum Dots for Chiral Nanophotonics // Journal of Physical Chemistry C - 2020, Vol. 124, No. 41, pp. 22704-22710. doi: 10.1021/acs.jpcc.0c07416 [IF: 4.536, SJR: 0.914]
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  8. 87Vovk I.A., Litvin A.P., Ushakova E.V., Cherevkov S.A., Fedorov A.V., Rukhlenko I.D. Nonparabolicity of Size-quantized Subbands of Bilayer Semiconductor Quantum Wells with Heterojunction // Optics Express - 2020, Vol. 28, No. 2, pp. 1657-1664. doi: 10.1364/OE.384227 [IF: 3.307, SJR: 0.93]
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  9. 86Vovk I.A., Lobanov V.V., Litvin A.P., Leonov M.Y., Fedorov A.V., Rukhlenko I.D. Band Structure and Intersubband Transitions of Three-Layer Semiconductor Nanoplatelets // Nanomaterials - 2020, Vol. 10, No. 5, pp. 933. doi: 10.3390/nano10050933 [IF: 3.553, SJR: 0.811]
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  10. 85Yu Y., Xiao F., Rukhlenko I.D., Zhu W. High-efficiency ultra-thin polarization converter based on planar anisotropic transmissive metasurface // AEU - International Journal of Electronics and Communications - 2020, Vol. 118, pp. 153141. doi: 10.1016/j.aeue.2020.153141 [IF: 1.147, SJR: 0.604]
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  11. 84Zhang J., Wei X., Rukhlenko I.D., Chen H., Zhu .W. Electrically tunable metasurface with independent frequency and amplitude modulations // ACS Photonics - 2020, Vol. 7, No. 1, pp. 265-271. doi: 10.1021/acsphotonics.9b01532 [IF: 6.756, SJR: 1.992]
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  12. 83Baimuratov A.S., Martynenko I.V., Baranov A.V., Fedorov A.V., Rukhlenko I.D., Kruchinin S.Y. Giant Stokes Shifts in AgInS2 Nanocrystals with Trapped Charge Carriers // Journal of Physical Chemistry C - 2019, Vol. 123, No. 26, pp. 16430-16438. doi: 10.1021/acs.jpcc.9b03537 [IF: 4.536, SJR: 0.914]
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  13. 82Baimuratov A.S., Pereziabova T.P., Tepliakov N.V., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Electric-field effect on the optical activity of helical semiconductor nanoribbons // Proceedings of SPIE - 2019, Vol. 11207, pp. 112070T. doi: 10.1117/12.2527249 [SJR: 0.146]
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  14. 81Baimuratov A.S., Pereziabova T.P., Tepliakov N.V., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Electric-field-enhanced circular dichroism of helical semiconductor nanoribbons // Optics Letters - 2019, Vol. 44, No. 3, pp. 499-502. doi: 10.1364/OL.44.000499 [IF: 3.416, SJR: 0.971]
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  15. 80Cai K., He C., Xiao F., Rukhlenko I.D., Zhu W. Resonant mode coupling in hybrid all-dielectric metamaterial // Materials Research Express - 2019, Vol. 6, No. 12, pp. 125801. doi: 10.1088/2053-1591/ab5456 [IF: 1.068, SJR: 0.434]
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  16. 79Kundelev E.V., Tepliakov N.V., Leonov M.Y., Maslov V.G., Baranov A.V., Fedorov A.V., Rukhlenko I.D., Rogach A.L. Amino Functionalization of Carbon Dots Leads to Red Emission Enhancement // Journal of Physical Chemistry Letters - 2019, Vol. 10, No. 17, pp. 5111-5116. doi: 10.1021/acs.jpclett.9b01724 [IF: 9.353, SJR: 1.394]
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  17. 78Martynenko I.V., Baimuratov A.S., Weigert F., Soares J.X., Dhamo L., Nickl P., Doerfel I., Pauli J., Rukhlenko I.D., Baranov A.V., Resch-Genger U. Photoluminescence of Ag-In-S/ZnS Quantum Dots: Excitation Energy Dependence and Low-Energy Electronic Structure // Nano Research - 2019, Vol. 12, No. 7, pp. 1595-1603. doi: 10.1007/s12274-019-2398-4 [IF: 7.354, SJR: 2.367]
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  18. 77Shao L., Zhu .W., Leonov M.Y., Rukhlenko I.D. Dielectric 2-bit coding metasurface for electromagnetic wave manipulation // Journal of Applied Physics - 2019, Vol. 125, No. 20, pp. 203101. doi: 10.1063/1.5094561 [IF: 2.068, SJR: 0.58]
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  19. 76Tepliakov N.V., Kundelev E.V., Khavlyuk P., Xiong Y., Leonov M.Y., Zhu .W., Baranov A.V., Fedorov A.V., Rogach A.L., Rukhlenko I.D. Sp2–sp3-Hybridized Atomic Domains Determine Optical Features of Carbon Dots // ACS Nano - 2019, Vol. 13, No. 9, pp. 10737-10744. doi: 10.1021/acsnano.9b05444 [IF: 13.942, SJR: 4.497]
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  20. 75Tepliakov N.V., Vovk I.A., Baimuratov A.S., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical activity of chiral semiconductor gammadions // Proceedings of SPIE - 2019, Vol. 11026, pp. 110260B. doi: 10.1117/12.2520794 [SJR: 0.146]
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  21. 74Tepliakov N.V., Vovk I.A., Leonov M.Y., Baranov A., Fedorov A.V., Rukhlenko I.D. Electronic and Optical Properties of Perovskite Quantum-Dot Dimer // Semiconductors - 2019, Vol. 53, No. 16, pp. 2158-2161. doi: 10.1134/S1063782619120303 [IF: 0.602, SJR: 0.154]
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  22. 73Tepliakov N.V., Vovk I.A., Shlykov A.I., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical activity and circular dichroism of perovskite quantum-dot molecules // Journal of Physical Chemistry C - 2019, Vol. 123, No. 4, pp. 2658–2664. doi: 10.1021/acs.jpcc.8b12041 [IF: 4.536, SJR: 0.914]
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  23. 72Xie J., Quader S., Xiao F., He C., Liang X., Geng J., Jin R., Zhu .W., Rukhlenko I.D. Truly all-dielectric ultrabroadband metamaterial absorber: Water-based and ground-free // IEEE Antennas and Wireless Propagation Letters - 2019, Vol. 18, No. 3, pp. 536-540. doi: 10.1109/LAWP.2019.2896166 [IF: 2.533, SJR: 1.682]
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  24. 71Baimuratov A.S., Pereziabova T.P., Leonov M.Y., Zhu .W., Baranov A.V., Fedorov A.V., Gun’ko Y.K., Rukhlenko I.D. Optically Active Semiconductor Nanosprings for Tunable Chiral Nanophotonics // ACS Nano - 2018, Vol. 12, No. 6, pp. 6203–6209. doi: 10.1021/acsnano.8b02867 [IF: 13.942, SJR: 4.497]
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  25. 70Lv W., Xie F., Huang Y., Li J., Fang X., Rashid A., Zhu W., Rukhlenko I.D., Wen G. Nonlinear coupling states study of electromagnetic force actuated plasmonic nonlinear metamaterials // Optics Express - 2018, Vol. 26, No. 3, pp. 3211-3220. doi: 10.1364/OE.26.003211 [IF: 3.307, SJR: 0.93]
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  26. 69Martynenko I.V., Baimuratov A.S., Osipova V.A., Kuznetsova V.A., Purcell-Milton F., Rukhlenko I.D., Fedorov A.V., Gun’ko Y.K., Resch-Genger U., Baranov A.V. Excitation Energy Dependence of the Photoluminescence Quantum Yield of Core/Shell CdSe/CdS Quantum Dots and Correlation with Circular Dichroism // Chemistry of Materials - 2018, Vol. 32, No. 2, pp. 465-471. doi: 10.1021/acs.chemmater.7b04478 [IF: 9.466, SJR: 2.065]
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  27. 68Pereziabova T.P., Baimuratov A.S., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical Activity of Semiconductor Nanosprings // Optics and Spectroscopy - 2018, Vol. 125, No. 5, pp. 684-687. doi: 10.1134/S0030400X18110231 [IF: 0.716, SJR: 0.145]
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  28. 67Purcell-Milton F., Mckenna R., Brennan L., Cullen C., Guillemeney L., Tepliakov N.V., Baimuratov A.S., Rukhlenko I.D., Perova T.S., Duesberg G., Baranov A.V., Fedorov A.V., Gun’ko Y.K. Induction of chirality in two-dimensional nanomaterials: Chiral 2D MoS2 nanostructures // ACS Nano - 2018, Vol. 12, No. 2, pp. 954-964. doi: 10.1021/acsnano.7b06691 [IF: 13.942, SJR: 4.497]
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  29. 66Tepliakov N.V., Baimuratov A.S., Vovk I.A., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Circular Dichroism Study of Colloidal Semiconductor Nanoscrolls // Optics and Spectroscopy - 2018, Vol. 125, No. 5, pp. 688-692. doi: 10.1134/S0030400X18110310 [IF: 0.716, SJR: 0.145]
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  30. 65Tepliakov N.V., Vovk I.A., Baimuratov A.S., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical Activity of Semiconductor Gammadions beyond Planar Chirality // Journal of Physical Chemistry Letters - 2018, Vol. 9, No. 11, pp. 2941-2945. doi: 10.1021/acs.jpclett.8b01334 [IF: 9.353, SJR: 1.394]
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  31. 64Tepliakov N.V., Vovk T.A., Rukhlenko I.D., Rozhdestvensky Y.V. Maser emission from gravitational states on isolated neutron stars // Astrophysical Journal - 2018, Vol. 857, No. 1, pp. 41. doi: 10.3847/1538-4357/aab559 [IF: 5.533, SJR: 2.038]
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  32. 63Vovk I.A., Tepliakov N.V., Baimuratov A.S., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Theory of Frenkel Excitons in Planar Arrays of Perovskite Quantum Dots // Optics and Spectroscopy - 2018, Vol. 125, No. 5, pp. 693-697. doi: 10.1134/S0030400X18110358 [IF: 0.716, SJR: 0.145]
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  33. 62Xie J., Zhu .W., Rukhlenko I.D., Xiao F., He C., Geng J., Liang X., Jin R., Premaratne M. Water metamaterial for ultra-broadband and wide-angle absorption // Optics Express - 2018, Vol. 26, No. 4, pp. 5052-5059. doi: 10.1364/OE.26.005052 [IF: 3.307, SJR: 0.93]
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  34. 61Andronaki S.A., Zhu .W., Leonov M.Y., Shalkovskiy A.G., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Effect of extinction on separation of nanoparticle enantiomers with chiral optical forces // IEEE Photonics Journal - 2017, Vol. 9, No. 2, pp. 4500906. doi: 10.1109/JPHOT.2017.2687525 [IF: 2.291, SJR: 0.563]
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  35. 60Baimuratov A.S., Gun’ko Y.K., Shalkovskiy A.G., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical activity of chiral nanoscrolls // Advanced Optical Materials - 2017, Vol. 5, No. 16, pp. 1600982. doi: 10.1002/adom.201600982 [IF: 6.875, SJR: 1.995]
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  36. 59Baimuratov A.S., Pereziabova T.P., Zhu .W., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical Anisotropy of Topologically Distorted Semiconductor Nanocrystals // Nano Letters - 2017, Vol. 17, No. 9, pp. 5514-5520. doi: 10.1021/acs.nanolett.7b02203 [IF: 12.712, SJR: 2.967]
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  37. 58Baimuratov A.S., Shlykov A.I., Zhu W., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Excitons in gyrotropic quantum-dot supercrystals // Optics Letters - 2017, Vol. 42, No. 13, pp. 2423-2426. doi: 10.1364/OL.42.002423 [IF: 3.416, SJR: 0.971]
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  38. 57Baimuratov A.S., Tepliakov N.V., Gun’ko Y.K., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical Activity of Helical Quantum-Dot Supercrystals // Optics and Spectroscopy - 2017, Vol. 122, No. 1, pp. 42-47. doi: 10.1134/S0030400X17010039 [IF: 0.716, SJR: 0.145]
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  39. 56Baimuratov A.S., Tepliakov N.V., Gun’ko Y.K., Shalkovskiy A.G., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Intraband optical activity of semiconductor nanocrystals // Chirality - 2017, Vol. 29, No. 5, pp. 159–166. doi: 10.1002/chir.22685 [IF: 1.956, SJR: 0.682]
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  40. 55Shlykov A.I., Baimuratov A.S., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optically active quantum-dot molecules // Optics Express - 2017, Vol. 25, No. 4, pp. 3811-3825. doi: 10.1364/OE.25.003811 [IF: 3.307, SJR: 0.93]
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  41. 54Tepliakov N.V., Baimuratov A.S., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Analytical Study of Optical Activity of Chiral-Shape Nanocrystals // Proceedings of SPIE - 2017, Vol. 10114, pp. 1011418. doi: 10.1117/12.2256985 [SJR: 0.146]
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  42. 53Tepliakov N.V., Baimuratov A.S., Gun’ko Y.K., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical Activity of Semiconductor Nanocrystals with Ionic Impurities // Optics and Spectroscopy - 2017, Vol. 122, No. 1, pp. 64-68. doi: 10.1134/S0030400X17010283 [IF: 0.716, SJR: 0.145]
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  43. 52Tepliakov N.V., Baimuratov A.S., Vovk I.A., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Chiral Optical Properties of Tapered Semiconductor Nanoscrolls // ACS Nano - 2017, Vol. 11, No. 7, pp. 7508-7515. doi: 10.1021/acsnano.7b04032 [IF: 13.942, SJR: 4.497]
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  44. 51Tepliakov N.V., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Absorption Properties of One- and Two-Dimensional Semiconductor Nanocrystals in the Presence of an Electric Field // Optics and Spectroscopy - 2017, Vol. 122, No. 1, pp. 101-105. doi: 10.1134/S0030400X17010295 [IF: 0.716, SJR: 0.145]
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  45. 50Vovk I.A., Baimuratov A.S., Zhu .W., Shalkovskiy A.G., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Chiral nanoparticles in singular light fields // Scientific Reports - 2017, Vol. 7, pp. 45925. doi: 10.1038/srep45925 [IF: 4.259, SJR: 0.874]
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  46. 49Vovk I.A., Tepliakov N.V., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Analytical theory of real-argument Laguerre–Gaussian beams beyond the paraxial approximation // Journal of the Optical Society of America A: Optics and Image Science, and Vision - 2017, Vol. 34, No. 10, pp. 1940-1944. doi: 10.1364/JOSAA.34.001940 [IF: 1.621, SJR: 0.379]
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  47. 48Zhu W., Rukhlenko I.D., Xiao F., He C., Geng J., Liang X., Premaratne M., Jin R. Multiband coherent perfect absorption in a water-based metasurface // Optics Express - 2017, Vol. 25, No. 14, pp. 15737-15745. doi: 10.1364/OE.25.015737 [IF: 3.307, SJR: 0.93]
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  48. 47Zhu W., Xiao F., Rukhlenko I.D., Geng J., Liang X., Premaratne M., Jin R. Wideband visible-light absorption in an ultrathin silicon nanostructure // Optics Express - 2017, Vol. 25, No. 5, pp. 5781-5786. doi: 10.1364/OE.25.005781 [IF: 3.307, SJR: 0.93]
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  49. 46Baimuratov A.S., Gun’ko Y.K., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Chiral quantum supercrystals with total dissymmetry of optical response // Scientific Reports - 2016, Vol. 6, pp. 23321. doi: 10.1038/srep23321 [IF: 4.259, SJR: 0.874]
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  50. 45Baimuratov A.S., Tepliakov N.V., Gun’ko Y.K., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Mixing of quantum states: A new route to creating optical activity // Scientific Reports - 2016, Vol. 6, pp. 5. doi: 10.1038/s41598-016-0017-0 [IF: 4.259, SJR: 0.874]
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  51. 44Hajian H., Rukhlenko I.D., Leung P.T., Caglayan H., Ozbay E. Guided Plasmon Modes of a Graphene-Coated Kerr Slab // Plasmonics - 2016, Vol. 11, No. 3, pp. 735-741. doi: 10.1007/s11468-015-0104-2 [IF: 2.139, SJR: 0.468]
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  52. 43Mukhina M.V., Baimuratov A.S., Rukhlenko I.D., Maslov V.G., Finn P.M., Gun’ko Y.K., Baranov A.V., Fedorov A.V. Circular Dichroism of Electric-Field-Oriented CdSe/CdS Quantum Dots-in-Rods // ACS Nano - 2016, Vol. 10, No. 9, pp. 8904–8909. doi: 10.1021/acsnano.6b04875 [IF: 13.942, SJR: 4.497]
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  53. 42Rukhlenko I.D., Baimuratov A.S., Tepliakov N.V., Baranov A.V., Fedorov A.V. Shape-induced optical activity of chiral nanocrystals // Optics Letters - 2016, Vol. 41, No. 11, pp. 2438-2441. doi: 10.1364/OL.41.002438 [IF: 3.416, SJR: 0.971]
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  54. 41Rukhlenko I.D., Tepliakov N.V., Baimuratov A.S., Andronaki S.A., Gun'Ko Y.K., Baranov A.V., Fedorov A.V. Completely chiral optical force for enantioseparation // Scientific Reports - 2016, Vol. 6, pp. 36884. doi: 10.1038/srep36884 [IF: 4.259, SJR: 0.874]
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  55. 40Tepliakov N.V., Baimuratov A.S., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical Activity of Chirally Distorted Nanocrystals // Journal of Applied Physics - 2016, Vol. 119, No. 19, pp. 194302. doi: 10.1063/1.4948966 [IF: 2.068, SJR: 0.58]
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  56. 39Tepliakov N.V., Baimuratov A.S., Gun'Ko Y.K., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Engineering Optical Activity of Semiconductor Nanocrystals via Ion Doping // Nanophotonics - 2016, Vol. 5, No. 4, pp. 573-578. doi: 10.1515/nanoph-2016-0034 [IF: 4.492, SJR: 1.765]
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  57. 38Tepliakov N.V., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Quantum theory of electroabsorption in semiconductor nanocrystals // Optics Express - 2016, Vol. 24, No. 2, pp. A52-A57. doi: 10.1364/OE.24.000A52 [IF: 3.307, SJR: 0.93]
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  58. 37Tepliakov N.V., Ponomareva I.O., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Field-Induced Broadening of Electroabsorption Spectra of Semiconductor Nanorods and Nanoplatelets // Journal of Physical Chemistry C - 2016, Vol. 120, No. 4, pp. 2379–2385. doi: 10.1021/acs.jpcc.5b08424 [IF: 4.536, SJR: 0.914]
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  59. 36Baimuratov A.S., Rukhlenko I.D., Gun’ko Y.K., Baranov A.V., Fedorov A.V. Dislocation-Induced Chirality of Semiconductor Nanocrystals // Nano Letters - 2015, Vol. 15, No. 3, pp. 1710–1715. doi: 10.1021/nl504369x [IF: 12.712, SJR: 2.967]
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  60. 35Baimuratov A.S., Rukhlenko I.D., Noskov R.E., Ginzburg P.B., Gun’ko Y.K., Baranov A.V., Fedorov A.V. Giant Optical Activity of Quantum Dots, Rods, and Disks with Screw Dislocations // Scientific Reports - 2015, Vol. 5, pp. 14712. doi: 10.1038/srep14712 [IF: 4.259, SJR: 0.874]
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  61. 34Kruchinin S.Y., Rukhlenko I.D., Baimuratov A.S., Leonov M.Y., Turkov V.K., Gun’ko Y.K., Baranov A.V., Fedorov A.V. Photoluminescence of a quantum-dot molecule // Journal of Applied Physics - 2015, Vol. 117, No. 1, pp. 014306-(1-7). doi: 10.1063/1.4905258 [IF: 2.068, SJR: 0.58]
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  62. 33Ponomareva I.O., Leonov M.Y., Kosenkov A.G., Rukhlenko I.D. Electroabsorption of a semiconductor nanocuboid // Journal of Optical Technology - 2015, Vol. 82, No. 11, pp. 749-754. doi: 10.1364/JOT.82.000749 [IF: 0.299, SJR: 0.229]
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  63. 32Turkov V.K., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Radiative decay rates of impurity states in semiconductor nanocrystals // AIP Advances - 2015, Vol. 5, No. 10, pp. 107126. doi: 10.1063/1.4934595 [IF: 1.568, SJR: 0.32]
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  64. 31Turkov V.K., Kruchinin S.Y., Rukhlenko I.D., Baimuratov A.S., Leonov M.Y., Gun’ko Y.K., Baranov A.V., Fedorov A.V. A theory of low-temperature stationary photoluminescence of a quantum-dot molecule // NANOCON 2014, 6TH INTERNATIONAL CONFERENCE - 2015, pp. 146-151
  65. 30Turkov V.K., Leonov M.Y., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Optical transitions in a complex valence band of semiconductor nanocrystals // Journal of Optical Technology - 2015, Vol. 82, No. 11, pp. 743-748. doi: 10.1364/JOT.82.000743 [IF: 0.299, SJR: 0.229]
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  66. 29Zhu W., Rukhlenko I.D., Noskov R.E., Jin R., Zhou J. Recent Advances in Theory and Applications of Electromagnetic Metamaterials // International Journal of Antennas and Propagation - 2015, Vol. 2015, pp. 982325. doi: 10.1155/2015/982325 [IF: 1.164, SJR: 0.299]
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  67. 28Achtstein A.V., Prudnikau A.V., Ermolenko M.V., Gurinovich L.I., Gaponenko S.V., Woggon U., Baranov A.V., Leonov M.Y., Rukhlenko I.D., Fedorov A.V., Artemyev M.V. Electroabsorption by 0D, 1D, and 2D Nanocrystals: A Comparative Study of CdSe Colloidal Quantum Dots, Nanorods, and Nanoplatelets // ACS Nano - 2014, Vol. 8, No. 8, pp. 7678–7686. doi: 10.1021/nn503745u [IF: 13.942, SJR: 4.497]
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  72. 23Leonov M.Y., Baimuratov A.S., Baranov A.V., Fedorov A.V., Rukhlenko I.D. Transient photoluminescence from semiconductor nanodumbbells // Laser Optics, 2014 International Conference - 2014, pp. 6886380. doi: 10.1109/LO.2014.6886380
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  73. 22Leonov M.Y., Rukhlenko I.D., Baimuratov A.S., Baranov A.V., Gun’ko Y.K., Fedorov A.V. Transient pump–probe absorption spectroscopy of semiconductor nanodumbbells // Proceedings of SPIE - 2014, Vol. 9126, pp. 91262C-(1-8). doi: 10.1117/12.2051755 [SJR: 0.146]
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  84. 11Litvin A.P., Parfenov P.S., Ushakova E.V., Fedorov A.V., Artemyev M.V., Prudnikau A.V., Rukhlenko I.D., Baranov A.V. Optical properties and aging of PbS quantum dots embedded in a porous matrix // Proceedings of SPIE - 2013, Vol. 8807, pp. 88070T-(1-7). doi: 10.1117/12.2023025 [SJR: 0.146]
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  91. 4Rukhlenko I.D., Leonov M.Y., Turkov V.K., Litvin A.P., Baimuratov A.S., Baranov A.V., Fedorov A.V. Kinetics of pulse-induced photoluminescence from a semiconductor quantum dot // Optics Express - 2012, Vol. 20, No. 25, pp. 27612-27635. doi: 10.1364/OE.20.027612 [IF: 3.307, SJR: 0.93]
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  93. 2Ushakova E.V., Litvin A.P., Parfenov P.S., Fedorov A.V., Artemyev M.V., Prudnikau A.V., Rukhlenko I.D., Baranov A.V. Anomalous Size-Dependent Decay of Low-Energy Luminescence from PbS Quantum Dots in Colloidal Solution // ACS Nano - 2012, Vol. 6, No. 10, pp. 8913 - 8921. doi: 10.1021/nn3029106 [IF: 13.942, SJR: 4.497]
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