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Рецензируемые научные статьи
25) Dang Du Nguyen, Fedor Shuklin, Elena Barulina, Hristina Albitskaya, Sergey Novikov, Alexander I. Chernov, Inki Kim, Aleksandr Barulin. Recent advances in dynamic single-molecule analysis platforms for diagnostics: advantages over bulk assays and miniaturization approaches. 2025, Biosensors and Bioelectronics. https://doi.org/10.1016/j.bios.2025.117361
24) Seho Lee, Abdulrahman Alsaadi, Tufail Hassan, Kyungwha Chung, Seongryeong Kim, Aleksandr Barulin, Gyoujin Cho, Chong Min Koo, Inki Kim. Ultrafast Photonic PCR with All-Solution-Processed Ti3C2Tx-Based Perfect Absorbers. 2025 Laser and Photonics Reviews. 10.1002/lpor.202401600
23) Aleksandr Barulin, Elena Barulina, Dong Kyo Oh, Yongjae Jo, Hyemi Park, Soomin Park, Hyunjun Kye, Jeesu Kim, Jinhee Yoo, Junhyung Kim, Gyusoo Bak, Yangkyu Kim, Hyunjung Kang, Yujin Park, Jong-Chan Park, Junsuk Rho, Byullee Park, Inki Kim. Axially multifocal metalens for 3D volumetric photoacoustic imaging of neuromelanin in live brain organoid. 2025 Science Advances. 10.1126/sciadv.adr0654
22) Elena Barulina, Dang Du Nguyen, Fedor Shuklin, Mikhail Podobrii, Sergey Novikov, Alexander Chernov, Inki Kim, Aleksandr Barulin. Dual-Wavelength On-Chip Integrated Metalens for Epi-Fluorescence Single-Molecule Sensing. 2024 Sensors. https://doi.org/10.3390/s24237781

21) Ф.А.Шуклин, Е.Ю.Барулина, С.М.Новиков, А.И.Чернов, А.В.Барулин. Концепция собирающей металинзы на чипе в качестве миниатюрного сенсора флуоресценции одиночных молекул. 2024 Письма в ЖЭТФ. DOI: 10.31857/S0370274X24110098

20) A. Barulin, O. Pashina, D. Riabov, O. Sergaeva, Z. Sadrieva, A. Shcherbakov, V. Rutckaia, J. Schilling, A. Bogdanov, I. Sinev, A. Chernov, M. Petrov. Thermo-Optical Bistability Enabled by Bound States in The Continuum in Silicon Metasurfaces. 2024 Laser and Photonics Reviews. https://doi.org/10.1002/lpor.202301399

19) Aleksandr Barulin; Yeseul Kim; Dong Kyo Oh; Jaehyuck Jang; Hyemi Park; Junsuk Rho; Inki Kim. Dual-wavelength metalens enables Epi-fluorescence detection from single molecules. 2024 Nature Communications. https://doi.org/10.1038/s41467-023-44407-4

18) Barulin, A., Nguyen, D.D., Kim, Y., Ko, C. and Kim, I.. Metasurfaces for Quantitative Biosciences of Molecules, Cells, and Tissues: Sensing and Diagnostics. 2024 ACS Photonics. https://doi.org/10.1021/acsphotonics.3c01576

17) Daniil A. Ilatovskii, Dmitry V. Krasnikov, Daria S. Kopylova, Ayvaz I. Davletkhanov, Yuriy G. Gladush, Vladislav A. Kondrashov, Boris I. Afinogenov, Fedor M. Maksimov, Aleksandr Barulin, Vladislav V. Burdin, Alexander I. Chernov, Albert G. Nasibulin. Photophoretic deposition and separation of aerosol-synthesized single-walled carbon nanotubes. 2024 Carbon. https://doi.org/10.1016/j.carbon.2023.118725

16) Inki Kim, Hongyoon Kim, Seungyeon Han, Joohoon Kim, Yangkyu Kim, Seonghyeon Eom, Aleksandr Barulin, Inhee Choi, Junsuk Rho, Luke P. Lee. Metasurfaces-Driven Hyperspectral Imaging via Multiplexed Plasmonic Resonance Energy Transfer. 2023 Advanced Materials. https://doi.org/10.1002/adma.202300229

15) Prithu Roy, Jean-Benoît Claude, Sunny Tiwari, Aleksandr Barulin, and Jérôme Wenger. Ultraviolet Nanophotonics Enables Autofluorescence Correlation Spectroscopy on Label-Free Proteins with a Single Tryptophan. 2023 Nano Letters. https://doi.org/10.1021/acs.nanolett.2c03797

14) Trevon Badloe, Yeseul Kim, Joohoon Kim, Hyemi Park, Aleksandr Barulin, Yen N. Diep, Hansang Cho, Won-Sik Kim, Young-Ki Kim, Inki Kim, and Junsuk Rho. Bright-Field and Edge-Enhanced Imaging Using an Electrically Tunable Dual-Mode Metalens. 2023 ACS Nano. https://doi.org/10.1021/acsnano.3c02471

13) Aleksandr Barulin, Hyemi Park, Byullee Park, Inki Kim. Dual-wavelength UV-visible metalens for multispectral photoacoustic microscopy: A simulation study. 2023 Photoacoustics. https://doi.org/10.1016/j.pacs.2023.100545

12) Kim, Y., Barulin, A., Kim, S., Lee, L.P. and Kim, I.. Recent advances in quantum nanophotonics: plexcitonic and vibro-polaritonic strong coupling and its biomedical and chemical applications. 2023 Nanophotonics. https://doi.org/10.1515/nanoph-2022-0542

11) Barulin, A. and Kim, I.. Hyperlens for capturing sub-diffraction nanoscale single molecule dynamics. 2023 Optics Express. https://doi.org/10.1364/OE.486702

10) Aleksandr Barulin, Prithu Roy, Jean-Benoît Claude & Jérôme Wenger. Ultraviolet optical horn antennas for label-free detection of single proteins. 2022 Nature Communications. https://doi.org/10.1038/s41467-022-29546-4

9) Barulin, A., Roy, P., Claude, J.B. and Wenger, J. Purcell radiative rate enhancement of label-free proteins with ultraviolet aluminum plasmonics. 2021 Journal of Physics D: Applied Physics. https://doi.org/10.1088/1361-6463/ac1627

8) Roy, P., Badie, C., Claude, J.B., Barulin, A., Moreau, A., Lumeau, J., Abbarchi, M., Santinacci, L. and Wenger, J. Preventing corrosion of aluminum metal with nanometer-thick films of Al2O3 capped with TiO2 for ultraviolet plasmonics. 2021 ACS Applied Nano Materials. https://doi.org/10.1021/acsanm.1c01160

7) Aleksandr Barulin and Jérôme Wenger. Ultraviolet Photostability Improvement for Autofluorescence Correlation Spectroscopy on Label-Free Proteins. 2020 The Journal of Physical Chemistry Letters. https://doi.org/10.1021/acs.jpclett.0c00209

6) Baibakov, M., Barulin, A., Roy, P., Claude, J.B., Patra, S. and Wenger, J.. Zero-mode waveguides can be made better: fluorescence enhancement with rectangular aluminum nanoapertures from the visible to the deep ultraviolet. 2020 Nanoscale Advances. https://doi.org/10.1039/D0NA00366B

5) Aleksandr Barulin, Jean-Benoît Claude, Satyajit Patra, Nicolas Bonod, and Jérôme Wenger. Deep Ultraviolet Plasmonic Enhancement of Single Protein Autofluorescence in Zero-Mode Waveguides. 2019 Nano Letters. https://doi.org/10.1021/acs.nanolett.9b03137

4) Barulin, A., Claude, J.B., Patra, S., Moreau, A., Lumeau, J. and Wenger, J. Preventing aluminum photocorrosion for ultraviolet plasmonics. 2019 The Journal of Physical Chemistry Letters. https://doi.org/10.1021/acs.jpclett.9b02137

3) Efremova, M.V., Veselov, M.M., Barulin, A.V., Gribanovsky, S.L., Le-Deygen, I.M., Uporov, I.V., Kudryashova, E.V., Sokolsky-Papkov, M., Majouga, A.G., Golovin, Y.I. and Kabanov, A.V. In situ observation of chymotrypsin catalytic activity change actuated by non-heating low-frequency magnetic field. 2018 ACS Nano. https://doi.org/10.1021/acsnano.7b06439

2) Semeno, A.V., Gilmanov, M.I., Kuznetzov, A.V., Melnik, N.N., Grigorjeva, A.V., Barulin, A.V., Gudilin, E.A. and Demishev, S.V. The Effect of Spin-Peierls Instability Suppression in Nanometer-Scale-Sized CuGeO 3 Crystals. 2016 Applied Magnetic Resonance. https://doi.org/10.1007/s00723-016-0788-2

1) Барулин, А.В., Григорьева, А.В., Гудилин, Е.А., Якубович, Е.В., Померанцева, Е.А., Семено, А.В. and Демишев, С.В., 2013. Синтез наностержней низкоразмерного спин-пайерлсовского магнетика Cu 1-x Nix GeO3. 2013 Наносистемы: физика, химия, математика.

Статьи конференций
  • Barulin, A., Park, H., Kim, I. and Park, B. Simulation of metalens-based UV-visible photoacoustic imaging. 2024 Photons Plus Ultrasound: Imaging and Sensing 2024 SPIE, PC128422J
  • Barulin A., Park H., Kim I., Park B.. Simulation of UV-visible Photoacoustic Imaging Using Metalenses. 2024 Optics and the Brain, JM4A. 15
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