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Публикации
Научные публикации центра в ведущих Российских и международных журналах
2023
  1. М. С. Фоломешкин, В. Г. Кон, А. Ю. Серегин, Ю. А. Волковский, П. А. Просеков, В. А. Юнкин, Д. А. Зверев, А. А. Баранников, А. А. Снигирёв, Ю. В. Писаревский, А. Е. Благов, М. В. Ковальчук, «Новый метод определения размера пучка синхротронного излучения в фокусе составной преломляющей линзы», Кристаллография, 2023, том 68, No 1, с. 5−10, DOI: 10.31 857/S0023476123010071, EDN: DNXSQI
  2. Anokhova, V., Asyakina, L., Babich, O., Dikaya, O., Goikhman, A., Maksimova, K., Grechkina, M., Korobenkov, M., Burkova, D., Barannikov, A., Narikovich, A., Chupakhin, E., Snigirev, A., Antipov, S. The Dosidicus gigas Collagen for Scaffold Preparation and Cell Cultivation: Mechanical and Physicochemical Properties, Morphology, Composition and Cell Viability. Polymers. (2023). 15 (5) 15. DOI: 10.3390/polym15051220.
  3. Климова, Н. Б., Снигирев А. А. «Метод определе-ния ориентации монокристаллов и калибровки энер-гии рентгеновских лучей при помощи спектра дифракци-онных потерь», Поверхность. Рентгеновские, синхротронные и нейтронные исследования, 2023, № 10, с. 1−10 DOI: 10.31 857/S1028096023100084, EDN: LAFKWU
2022
  1. I. Snigireva, M. Polikarpov & A. Snigirev “Diamond X-Ray Refractive Optics”, Synchrotron Radiation News, (2022); DOI: 10.1080/08940886.2021.2022387
  2. N. Klimova, A. Snigirev, I. Snigireva, O. Yefanov, “Using diffraction losses of X-rays in a single crystal for determination of its lattice parameters as well as for monochromator calibration“, J. Syn. Rad. 29, 369-376 (2022); https://doi.org/10.1107/S1600577521013667
  3. A. V. Khramenkova, D. N. Ariskina, O. E. Polozhentsev, I. I. Lyatun, D. M. Kuznetsov &E. A. Yatsenko, «Hybrid polymer-oxide materials formed by non-stationary electrolysis as catalysts for hydrogen peroxide decomposition», Composite Interfaces 2022; https://doi.org/10.1080/09276440.2022.2044109
  4. A. Tcibulnikova, E. Zemliakova, D. Artamonov, V. Slezhkin, L. Skrypnik, I. Samusev, A. Zyubin, A. Khankaev, V Bryukhanov and I Lyatun, «Photonics of Viburnum opulus L. Extracts in Microemulsions with Oxygen and Gold Nanoparticles» Chemosensors 2022, 10, 130; https://doi.org/10.3390/chemosensors10040130
  5. O. V. Konovalov, V. Belova, F. La Porta, M. Saedi, I. M. N. Groot, G. Renaud, I. Snigireva, A. Snigirev, M. Voevodina, C. Shen, A. Sartori, B. M. Murphy and M. Jankowski, “X-ray reflectivity from curved surfaces as illustrated by a graphene layer on molten copper”, J. Synchrotron Rad. (2022). 29; https://doi.org/10.1107/S1600577522002053
  6. Sorokovikov, M., Zverev, D., Yunkin, V., & Snigirev, A. (2022, October). Metrology of a coherent x-ray beam expander for advanced synchrotron sources. In Advances in X-Ray/EUV Optics and Components XVII (Vol. 12240, pp. 154-162)
  7. V.V. Lapshin, E. M. Zakharevich, A. S. Narikovich, A. S. Korotkov, I.I. Lyatun, A.A. Snigirev “Processing technology development for hard-alloy punches with a linear parabolic profile” Photonics Russia Vol. 16, №3, pp.184-196, 2022; DOI: 10.22184/1993-7296.FRos.2022.16.3.184.196;
  8. N. B. Klimova, A. A. Barannikov, M. N. Sorokovikov, D. A. Zvereva, V. A. Yunkin, P. A. Prosekov, A. Yu. Seregin, A. E. Blagov, and A. A. Snigirev “Fine structure of diffraction losses in single-crystal X-ray lenses”, Crystallography Reports, 2022, Vol. 67, No. 6, pp. 838–844; DOI: 10.1134/S1063774522060128;
  9. A. Barannikov, I. Troyan, I. Snigireva, and A. Snigirev , “X-ray diffraction imaging of the diamond anvils based on the microfocus x-ray source with a liquid anode”, Review of Scientific Instruments 93, 083903 (2022); https://doi.org/10.1063/5.0080144
  10. V. V. Lapshin, E. M. Zakharevich , A. S. Narikovich, A. S. Korotkov, I. I. Lyatun, A. A. Snigirev,”Processing Technology Development for Hard-Alloy Punches with a Linear Parabolic Profile”, Photonics vol. 16 № 3 (2022), DOI: 10.22184/1993-7296.FRos.2022.16.3.184.196(В. В. Лапшин, Е. М. Захаревич, А. С. Нарикович, А. С. Коротков, И. И. Лятун, А. А. Снигирев, “Разработка технологии изготовления твердосплавных пуансонов с линейным параболическим профилем”, Фотоника том 16 № 3 (2022))
  11. Tcibulnikova, A.V., Myslitskaya, N.A., Slezhkin, V.A., Bruykhanov, V.V., Samusev, I.G., Lyatun, I.I., Upconversion luminescence enhancement of the ytterbium oxide with gold nanoparticles on anodized titanium surface, 2022, Journal of Luminescence, 251, 119157, 10.1016/j.jlumin.2022.119157;
  12. Zyubin, A., Rafalskiy, V., Lopatin, M., Demishkevich, E., Moiseeva, E., Matveeva, K., Kon, I., Khankaev, A., Kundalevich, A., Butova, V., Lipnevich, L., Lyatun, I., Samusev, I., Bryukhanov, V., Spectral homogeneity of human platelets investigated by SERS, 2022, PLoS ONE, 17, 5 May, e0265247, 10.1371/journal.pone.0265247;
  13. Tcibulnikova, A., Zemliakova, E., Artamonov, D., Slezhkin, V., Skrypnik, L., Samusev, I., Zyubin, A., Khankaev, A., Bryukhanov, V., Lyatun, I., Photonics of Viburnum opulus L. Extracts in Microemulsions with Oxygen and Gold Nanoparticles, 2022, Chemosensors, 10, 4, 130, 10.3390/chemosensors10040130;
  14. Tcibulnikova, A.V., Khankaev, A.A., Bryukhanov, V., Samusev, I.G., Lyatun, I.I., Slezhkin, V.A., Plasmon Structures on Gold Surface Induced by Femtosecond Laser Radiation, 2022, 2022 International Conference Laser Optics, ICLO 2022 – Proceedingss;
  15. Khramenkova, A.V., Ariskina, D.N., Polozhentsev, O.E., Lyatun, I.I., Kuznetsov, D.M., Yatsenko, E.A., Hybrid polymer-oxide materials formed by non-stationary electrolysis as catalysts for hydrogen peroxide decomposition, 2022, Composite Interfaces, 29, 11, 1229, 1247, 10.1080/09276440.2022.2044109;
  16. A. V. Andrianov, A. N. Aleshin, P. A. Aleshin, O. A. Moskalyuk & V. E. Yudin. Anisotropy of a Terahertz Electromagnetic Response of Filament Microstructures of a Composite Based on Polypropylene with Carbon Nanofibers // JETP Letters, 2022, volume 115, pages 7–10;
  17. O. A. Moskalyuk, E. S. Tsobkallo, V. A. Lysenko & M. V. Kriskovets. Effect of Heat Treatment on Mechanical Properties of Polyoxadiazole Yarns // Fibre Chemistry, 2022, volume 54, pages 97–101. Q3.
  18. O. Moskalyuk, D. Vol‘nova and E. Tsobkallo. Modeling of the Electrotransport Process in PP-Based and PLA-Based Composite Fibers Filled with Carbon Nanofibers // Polymers 2022, 14(12), 2362; https://doi.org/10.3390/polym14122362;
  19. A. V. Belashov, A. A. Zhikhoreva, O. A. Moskalyuk, Y. M. Beltukov and I. V. Semenova. Linear and Nonlinear Elastic Properties of Polystyrene-Based Nanocomposites with Allotropic Carbon Fillers and Binary Mixtures // Polymers 2022, 14, 5462; https://doi.org/10.3390/ polym14245462;
  20. Y. Nashchekina, A. Chabina, O. Moskalyuk, I. Voronkina, P. Evstigneeva, G. Vaganov, A. Nashchekin, V. Yudin and N. Mikhailova. Effect of Functionalization of the Polycaprolactone Film Surface on the Mechanical and Biological Properties of the Film Itself // Polymers 2022, 14, 4654. https://doi.org/10.3390/ polym14214654;
  21. О.А. Москалюк, Е.С. Цобкалло, В.А. Лысенко, М.В. Крисковец. Влияние термической обработки на механические свойства нитей из полиоксадиазола // Химические волокна, №2, С. 43-47, 2022, ВАК
  22. А.В.Андрианов, А.Н.Алешин, П.А.Алешин, О.А.Москалюк, В.Е.Юдин. Анизотропия терагерцового электромагнитного отклика нитевидных микроструктур композита на основе полипропилена с углеродными нановолокнами // Письма в ЖЭТФ, том 115, вып.1, с.10–14, 2022. DOI: 10.31857/S1234567822010025;
  23. Прядезников Б.Ю., Тарасов П.П., Петров П.П., Москалюк О.А. / Влияние содержания железной руды, восстановленного в среде водорода, используемый в качестве легирующей добавки, на процесс жидкофазного спекания сплавов AL АСД-1 // Химия и химическая технология: достижения и перспективы. Материалы VI Всероссийской конференции, 29-30 ноября 2022 г., Кемерово [Электронный ресурс] / ФГБОУ ВО «Кузбас. гос. техн. ун-т им. Т. Ф. Горбачева»; редкол.: К.С. Костиков (отв. редактор) [и др.]. – Кемерово, 2022. – 1 электрон. опт. диск. https://science.kuzstu.ru/wp-content/Events/Conference/HIHT/2022/HIHT/pages/title-1.htm, https://elibrary.ru/item.asp?id=49861077
2021
  1. S. Shevyrtalov, A. Barannikov, Y. Palyanov, A. Khokhryakov, Y. Borzdov, I. Sergueev, S. Rashchenko and A. Snigirev, “Towards high-quality nitro­gen-doped diamond single crystals for X-ray optics”, J. Synchrotron Rad. (2021). 28 https://doi.org/10.1107/S1600577520014538
  2. P. Wojda, S. Kshevetskii, and I. Lyatun, “High-accuracy computation of hard X-ray focusing and imaging for refractive optics”, J. Synchrotron Rad. (2021).28 https://doi.org/10.1107/S1600577521001880
  3. M. A. Voevodina, S. S. Lyatun, A. A. Barannikov, I. I. Lyatun, I. I. Snigireva & A. A. Snigirev ”X-ray Reflecto-Interferometry Technique Using a Microfocus Laboratory Source” Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques volume 15, pages39–45 (2021)
  4. M. Voevodina, S. Lyatun, D. Zverev, A. Barannikov, I. Lyatun, I. Snigireva, and A. Snigirev “X-ray interferometry technique for thin-films study using an x-ray microfocus laboratory source”, Proc. SPIE 11776, EUV and X-ray Optics, Sources, and Instrumentation, 1177609 (18 April 2021); https://doi.org/10.1117/12.2589495
  5. P. Medvedskaya, I. Lyatun, K. Golubenko, V. Yunkin, I. Snigireva, and A. Snigirev “X-ray refractive glass microlenses produced by ion beam lithography”, Proc. SPIE 11776, EUV and X-ray Optics, Sources, and Instrumentation, 117760I (18 April 2021); https://doi.org/10.1117/12.2589310
  6. D. Zverev, M. Voevodina, S. Lyatun, I. Snigireva, and A. Snigirev “Thin layer imaging approach by X-ray amplitude splitting interferometer based on compound refractive lens”, Proc. SPIE 11776, EUV and X-ray Optics, Sources, and Instrumentation, 117760A (18 April 2021); https://doi.org/10.1117/12.2589584
  7. A. Barannikov, S. Shevyrtalov, D. Zverev, A. Narikovich, A. Sinitsyn, I. Panormov, I. Snigireva, and A. Snigirev “Laboratory complex for the tests of the X-ray optics and coherence-related techniques”, Proc. SPIE 11776, EUV and X-ray Optics, Sources, and Instrumentation, 117760D (18 April 2021); https://doi.org/10.1117/12.2582687
  8. S. Shevyrtalov, A. Barannikov, Y. Palyanov, A. Khokhryakov, Y. Borzdov , I. Sergueev, S. Rashchenko, and A. Snigirev “Synthetic single crystal diamonds for X-ray optics”, Proc. SPIE 11776, EUV and X-ray Optics, Sources, and Instrumentation, 117760G (18 April 2021); https://doi.org/10.1117/12.2589702
  9. Klimova N, Yefanov O, Snigireva I, Snigirev A. “Determination of the Exact Orientation of Single-Crystal X-ray Optics from Its Glitch Spectrum and Modeling of Glitches for an Arbitrary Configuration”. Crystals. 2021; 11(5):504. https://doi.org/10.3390/cryst11050504
  10. M. Sorokovikov, D. Zverev, V. Yunkin, S. Kuznetsov, I. Snigireva, A. Snigirev, “High-resolution phase-sensitive x-ray imaging technique based on the bilens system in an advanced optical layout,” Proc. SPIE 11839, X-Ray Nanoimaging: Instruments and Methods V, 118390I (8 September 2021); doi:10.1117/12.2595017
  11. M. Korobenkov, A. Narikovich, “Microcomputed tomography-based characterization of b4c-c composite for x-ray optics,” Proc. SPIE 11840, Developments in X-Ray Tomography XIII, 118401C (9 September 2021); doi: 10.1117/12.2594538
  12. D. Zverev, I. Snigireva, A. Snigirev, “X-ray refractive axicon lens for advanced synchrotron sources,” Proc. SPIE 11837, Advances in X-Ray/EUV Optics and Components XVI, 1183702 (21 September 2021); doi: 10.1117/12.2594507
  13. I.Snigireva, T. Irifune, T. Shinmei, P. Medvedskaya, S. Shevyrtalov, G. Bourenkov, M. Polikarpov, S. Rashchenko, A. Snigirev, Iю Lyatun, “Study of the applicability of nano-polycrystalline diamond as a material for refractive X-ray lenses,” Proc. SPIE 11837, Advances in X-Ray/EUV Optics and Components XVI, 1183703 (21 September 2021); doi: 10.1117/12.2594675.
  14. A. Barannikov, S. Shevyrtalov, M. Polikarpov, I. Snigireva, A. Snigirev, “X-ray diffraction imaging of diamond x-ray optics in the laboratory,” Proc. SPIE 11837, Advances in X-Ray/EUV Optics and Components XVI, 118370N (21 September 2021); doi: 10.1117/12.2594722.
  15. M. Sorokovikov, D. Zverev, V. Yunkin, S. Kuznetsov, I. Snigireva, A. Snigirev, “Silicon planar refractive optics for coherent x-ray sources: metrology and manufacturing approaches,” Proc. SPIE 11837, Advances in X-Ray/EUV Optics and Components XVI, 1183704 (21 September 2021); doi: 10.1117/12.2594815
  16. V. M. Kuchkin, K. Chichay, B. Barton-Singer, F. N. Rybakov, S. Blügel, B. J. Schroers, N. S. Kiselev, Geometry and Symmetry in Skyrmion Dynamics, Phys. Rev. B 104, 165116 (8 October 2021), https://doi.org/10.1103/PhysRevB.104.165116
  17. D.Zverev, I. Snigireva, M. Sorokovikov, V. Yunkin, S. Kuznetsov, A. Snigirev, A. “Coherent X-ray beam expander by multilens interferometer.” Optics Express, 29(22) 2021. doi: 10.1364/OE.434656
  18. A. V. Tcibulnikova, N. A. Myslitskaya, V. A. Slezhkin, V. V. Bruykhanov, I. G. Samusev, A. A. Khankaev, M. V. Demin, and I. I. Lyatun “The plasmon splitting reflectance spectra on anodized titanium surface in the presence of Yb2O3 upconversion luminescence “, Proc. SPIE 11904, Plasmonics VI, 119041H (9 October 2021); https://doi.org/10.1117/12.2602340
  19. A. Khankaev, A. Tcibulnikova, I. Samusev, I. I. Lyatun, V. Slezhkin, and V. Bryukhanov “Optical properties of Cu/Au surfaces structures induced by fs laser exposure with circular polarization”, Proc. SPIE 11904, Plasmonics VI, 119041J (9 October 2021); https://doi.org/10.1117/12.2602570
  20. Shevyrtalov, S., Rodionova, V., Lyatun, I., Zhukova, V., & Zhukov, A. (2021). Post-annealing influence on magnetic properties of rapidly quenched Ni-Mn-Ga glass-coated microwires. IEEE Transactions on Magnetics. DOI: 10.1109/TMAG.2021.3076395
  21. Khankaev, A., Tcibulnikova, A., Samusev, I., Bryukhanov, V., Demin, M., & Lyatun, I. (2021, May). Plasmon polarized spectra on gold films modified with femtosecond laser induced surface structures. In Optical Sensors 2021 (Vol. 11772, p. 1177229). International Society for Optics and Photonics. DOI: 10.1117/12.2596521
  22. Klimova, N.; Snigireva, I.; Snigirev, A.; Yefanov, O.; Suppressing diffraction-related intensity losses in transmissive single-crystal X-ray optics. Crystals 2021, 11(12), 1561; https://doi.org/10.3390/cryst11121561
УНУ
  1. Anokhova, V., Asyakina, L., Babich, O., Dikaya, O., Goikhman, A., Maksimova, K., Grechkina, M., Korobenkov, M., Burkova, D., Barannikov, A., Narikovich, A., Chupakhin, E., Snigirev, A., Antipov, S. The Dosidicus gigas Collagen for Scaffold Preparation and Cell Cultivation: Mechanical and Physicochemical Properties, Morphology, Composition and Cell Viability. Polymers. (2023). 15 (5) 15. DOI: 10.3390/polym15051220М.
  2. A. Barannikov, S. Shevyrtalov, M. Polikarpov, I. Snigireva, A. Snigirev, “X-ray diffraction imaging of diamond x-ray optics in the laboratory,” Proc. SPIE 11837, Advances in X-Ray/EUV Optics and Components XVI, 118370N (21 September 2021); doi: 10.1117/12.2594722
  3. M. A. Voevodina, S. S. Lyatun, A. A. Barannikov, I. I. Lyatun, I. I. Snigireva & A. A. Snigirev ”X-ray Reflecto-Interferometry Technique Using a Microfocus Laboratory Source” Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques volume 15, pages39–45 (2021)
  4. A. Barannikov, I. Troyan, I. Snigireva, and A. Snigirev , “X-ray diffraction imaging of the diamond anvils based on the microfocus x-ray source with a liquid anode”, Review of Scientific Instruments 93, 083903 (2022); https://doi.org/10.1063/5.0080144
  5. A. Barannikov, S. Shevyrtalov, D. Zverev, A. Narikovich, A. Sinitsyn, I. Panormov, I. Snigireva, and A. Snigirev “Laboratory complex for the tests of the X-ray optics and coherence-related techniques”, Proc. SPIE 11776, EUV and X-ray Optics, Sources, and Instrumentation, 117760D (18 April 2021); https://doi.org/10.1117/12.2
  6. A. Narikovich, D. Zverev, A. Barannikov, I. Lyatun, I. Panormov, A. Sinitsyn, I. Snigirev, « Metrological approach for diagnostics of X-ray refractive lenses», AIP Conference Proceedings 2299, 060006 (2020); https://doi.org/10.1063/5.0031371.
  7. M. Voevodina, S. Lyatun, A. Barannikov, I. Lyatun, D. Zverev, I. Snigireva, and A. Snigirev, «X-ray reflecto-interferometer based on compound refractive lenses for thin-films study» AIP Conference Proceedings 2299, 060012 (2020); https://doi.org/10.1063/5.0031390.
  8. Voevodina, M., Lyatun, S., Barannikov, A., Lyatun, I., Snigireva, I., & Snigirev, A. (2020, August). X-ray interferometry technique using an x-ray microfocus laboratory source. In Advances in Metrology for X-Ray and EUV Optics IX (Vol. 11492, pp. 92-97). SPIE.
  9. Serebrennikov, D. A., Dudchik, Y. I., Barannikov, A. A., Klimova, N. B., & Snigirev, A. A. (2017, August). X-ray microscope with refractive x-ray optics and microfocus laboratory source. In Advances in Laboratory-based X-Ray Sources, Optics, and Applications VI (Vol. 10387, pp. 68-73). SPIE.
  10. Polikarpov, M., Barannikov, A., Zverev, D., Terentiev, S. A., Polyakov, S. N., Zholudev, S. I., ... & Snigirev, A. (2016, September). Laboratory and synchrotron tests of two-dimensional parabolic x-ray compound refractive lens made of single-crystal diamond. In Advances in Laboratory-based X-Ray Sources, Optics, and Applications V (Vol. 9964, pp. 60-66). SPIE.