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Публикации

Статьи

1. Polycapillary conic collimator for micro-XRF, A. A. Bzhaumikhov, N. Langhoff, J. Schmalz, R. Wedell, V. I. Beloglazov, N. F. Lebedev, Institut fur Geraetebau GmbH (FRG) [3444-36], SPIE''s 1998 Annual Meeting Technical Conference 3444, Convention Center Room 4, Sunday-Wednesday 19-22 July 1998 , Proceedings of SPIE Vol. 3444.
2. Polycapillary structure as X-ray window for differential vacuum pumping, A. A. Bzhaumikhov, N. Langhoff, J. Schmalz, R. Wedell, V. I. Beloglazov, V. A. Arkadiev, H. E. Gorny, Z. Margushev, H Wolff, Institut fur Geraetebau GmbH (FRG) [3444-37], SPIE''s 1998 Annual Meeting Technical Conference 3444, Convention Center Room 4, Sunday-Wednesday 19-22 July 1998, Proceedings of SPIE Vol. 3444.
3. Focusing of Hard X-ray Radiation by Layer Zone Plate, V. E. Asadchikov, V. I. Beloglazov, A. V. Vinogradov, D. L. Voronov, V. V. Kondratenko, Yu. V. Kopylov, N. F. Lebedev, A. G. Ponomarenko, A. V. Popov, A. A. Postnov, S. V. Savel''ev, and A. I. Fedorenko, Crystallography Reports, 1999, Vol. 44, No. 4 p.546.
4. Three-dimentional micron and submicron structures based on fiberglass technology / V.I.Beloglasov, S.P.Souchoveev, N.V.Suetin // Indo-Russian Workshop on Micromechanical systems. 2-4 Fev, 1999, New-Dehli, India. SPIE Proceedings. 1999. V.3903. PP. 134-140.
5. Fiber Glass Structure as basic elements of moving actuators for microrobots operated by umbilical cable / S.P.Soukhoveev, V.P.Stepanov, V.I.Beloglasov, N.B.Skibina, A.V.Stcherbakov, N.V.Suetin //International Workshop on Micro robots: Micro Machines and Systems. 1999. 24-25 Nov. Moscow. Russia. IARP Proceedings. PP. 185-190.
6. Creation of micron and submicron three-dimensional structures using glass fiber technology V.I.Beloglasov, S.P.Souchoveev, N.V.Suetin // Microsistemnaya tehnika. 2000. № 1. p. 6-9.
7. 1-D and 2-D photonic crystal and multilayered fibers: manufactured, spectral properties and theory Skibina Yu. S., Melnikov L. A., Sinichkin Yu. P., Romanova E. A., Elterman I. V., Kozina O. N., Benson T. M., Sewell P., Nefedov I. S., Beloglazov V. I., Skibina N.B //OWTNM-2000-May-Prague-Czech Republic-WS26-27.
8. Tuning the photonic band gap of sub 500 nm – pitch holey fibers in the 930 –1030 nm range/ Skibina Yu. S., Fedotov A.B., Melnikov L.A., Beloglazov V.I. //Laser Physics-2000-Vol.10.No.5-PP.-723-726.
9. Tuning the Photonic Band Gap of Sub-500-nm-Pitch Holey Fibers in the 930-1030-nm Range/ A.B.Fedotov, A.A.Ivanov, M.V. Alfimov, V.I.Beloglasov, L.A.Melnikov, Yu.S.Skibina, A.M.Zheltikov // Laser Physics. 2000. V.10. N.5. P.1086.
10. Quasi-1D and -2D photonic crysta and multi-layered fibers: manufacturing and theoryL.A.Melnikov, Yu.P.Sinichkin, E.A.Romanova, I.V.Elterman, O.N.Kozina, Yu.S.Skibina, T.M.Benson, P.Sewell, I.S.Nefedov, V.I.Beloglasov, N.B.Skbina // International conference proceedings. Praga. May 2000.
11. Glass capillary for use with synchrotron radiation / V.I.Beloglasov, A.Erco et al // ICOM''2001.
12. Holey fibers with 0.4-32-mkm Lattice Constant photonic band gap cladding: fabrication, characterization and nonlinear optical measurements / Skibina Yu. S., Fedotov A.B., Melnikov L.A., Beloglazov V.I. //Laser Physics-2001-Vol.11.No.1-PP.138-145.
13. Holey fibers with 0.4-32-micron-pitch photonic band-gap cladding: fabrication, characterization, and nonlinear optical applications / Skibina Yu. S., Fedotov A.B., Tarasishin A.V., Kirillov B.A., Magnitskii S. A., Zheltikov A.M., Ivanov A.A., Alfimov M.V., Beloglazov V.I., Tarasevitch A.P., von der Linde D., Melnikov L.A. //CLEO-2001-May-Baltimore-USA-JtuB6.
14. Glass photonic crystals: fabrication, optical properties and applications E.V.Becker, E.A.Romanova, L.A.Melnikov, Yu.P.Sinichkin, V.Yu.Sorokin, I.V.Elterman, N.B.Skibina, V.I.Beloglazov, A.V.Sherbakov, V.V.Baturin, T.M.Benson, P.Sewell // IEEE LEOS Annual Meeting 2001, 12-15 Nov. San-Diego, US. Conference Proceedings. 2 pages.
15. Optical characteristics of 2D air-glass and metal glass photonic superlattice crystal / Skibina Yu. S., Melnikov L., Kochubei V., Beloglazov V., Mironychev A., Sinichkin Yu. //CLEO-2002-May-LongBeach-USA-QTuM5.
16. Spectral broadening of 40-fs Ti:sapphire laser pulses in photonic-molecule modes of a cobweb-microstructure fiber / A.B. Fedotov, P. Zhou, A.N. Naumov, V.V. Temnov, V.I. Beloglazov, N.B. Skibina, L.A. Mel’nikov, A.V. Shcherbakov, A.P. Tarasevitch, D. Von der Linde, A.M. Zheltikov // Appl. Phys. B 75, 621–627 (2002).
17. Investigation of optical characteristics of 2D air-glass and metal glass photonic superlattice crystal Skibina Yu. S., Melnikov L., Kochubei V., Beloglazov V., Mironychev A., Sinichkin Yu, Tsoy V., Bekker E. //IQEC-2002-June-Moscow-P.307.
18. Waveguide Modes of Hollow Photonic-Crystal Fibers / S.O. Konorov, A.B. Fedotov, O.A. Kolevatova, V.I. Beloglazov, N.B. Skibina, A.V. Shcherbakov and A. M. Zheltikov // JETP Letters, Vol. 76, No. 6, 2002, pp.341–345.
19. Supercontinuum Generation in Photonic-Molecule Modes of Microstructure Cobweb Fibers and Photonic-Crystal Fibers with Femtosecond Pulses of Tunable 1.1–1.5-mkm Radiation /A.N. Naumov, A.B. Fedotov, I. Bugar, D. Chorvat, Jr., V.I. Beloglazov, S.O. Konorov, L.A. Mel’nikov, N.B. Skibina, D.A. Sidorov-Biryukov, E.A. Vlasova, V.B. Morozov, A.V. Shcherbakov, D. Chorvat and A.M. Zheltikov // Laser Physics, Vol. 12, No. 8, 2002, pp. 1191–1198.
20. Photonic-Molecule Modes of a Microstructure Cobweb Fiber / A.B. Fedotov, A.N. Naumov, S.O. Konorov, V.I. Beloglazov, L.A. Mel’nikov, N.B. Skibina, D.A. Sidorov-Biryukov, A.V. Shcherbakov and A.M. Zheltikov // Laser Physics, Vol. 12, No. 11, 2002, pp. 1363–1367.
21. Enhanced Xi(3) interactions of unamplified femtosecond Cr:forsterite laser pulses in photonic-crystal fibers / A.N. Naumov, A.B. Fedotov, A.M. Zheltikov, V.V. Yakovlev, L.A. Mel’nikov, V.I. Beloglazov, N.B. Skibina and A.V. Shcherbakov // Vol. 19, No. 9/September 2002/J. Opt. Soc. Am. B 2183.
22. Photonische Faser und Verfahren zu ihrer Herstellung / Deutsche Patentanmeldung / Deutsche Patentanmeldung / Anmeldedatum 23.10.2002 /Veroffentlichungstag der Patenterteilung 29.04.2004 /DE 102 50 216 B3 2004.04.29/ N.Skibina,V.Beloglazov.
23. Waveguide Modes of Electromagnetic Radiation in Hollow-Core Microstructure and Photonic-Crystal Fibers / S.O. Konorov, O.A. Kolevatova, A.B. Fedotov, E.E. Serebryannikov, D.A. Sidorov-Biryukov, J.M. Mikhailova, A.N. Naumov, V.I. Beloglazov, N.B. Skibina, L.A. Mel’nikov, A.V. Shcherbakov and A. M. Zheltikov // Journal of Experimental and Theoretical Physics,Vol. 96, No. 5, 2003, pp. 857–869.
24. High-quality microstructure glass and glass fibers / Skibina Yu. S., Melnikov L., Glas P., Fischer D., Skibina N., Beloglazov V., Wedell R. //CLEO-2003-May-Baltimore-USA-CtuL7.
25. Glass and metal-glass holey fibers with high quality hexagonal structure / Skibina Yu. S., Melnikov L., Glas P., Fischer D., Skibina N., Beloglasov V.I., Wedell R.//CLEO-2003-Europe-Munchen-Germany-CL2-3-THU.
26. Hollow-core photonic-crystal fibers optimized for four-wave mixing and coherent anti-Stokes Raman scattering / S.O. Konorov, A.B. Fedotov, D.A. Sidorov-Biryukov, V.I. Beloglazov, N.B. Skibina, A.V. Shcherbakov and A.M. Zheltikov // J. Raman Spectrosc. 2003; 34.
27. Waveguiding properties and the spectrum of modes of hollow-core photonic-crystal fibres / A.B. Fedotov, S.O. Konorov, O.A. Kolevatova, V.I. Beloglazov, N.B. Skibina, L.A. Mel’nikov, A.V. Shcherbakov, A.M. Zheltikov // Quantum Electronics 33(3) 271-274 (2003).
28. Guiding Femtosecond Second-Harmonic Pulses of a Cr:Forsterite Laser through Hollow-Core Photonic-Crystal Fibers S.O. Konorov, A.B. Fedotov, A.A. Ivanov, M.V. Alfimov, V.I. Beloglazov, N.B. Skibina, A.A. Podshivalov, A.N. Petrov, A.V. Shcherbakov, A.M. Zheltikov // Laser Physics, Vol. 13, No. 8, 2003, pp.1046–1049.
29. Laser breakdown with millijoule trains of picosecond pulses transmitted through a hollow- core photonic crystal fiberKonorov, S.O., Fedotov, A.B., Kolevatova, O.A., Beloglazov, V.I., Skibina, N.B., Shcherbakov , A. V., Wintner, E., Zheltikov` A. M., Journal of Physics D: Applied Physics, Volume 36, Issue 12, pp. 1375-1381 (2003).
30. Photonic crystal fibers with a Photonic Band Gap Tunable within the Range of 930-1030 nm M.V.Alfimov, M.Zheltikov, A.A.Ivanov, V.I.Beloglasov, B.A.Kirilov, S.A.Magnitckii, A.V.Tarasishin, A.B.Fedotov, L.A.Melnikov N.B..Skibina // JETP LETT. 2003. V.71. PP. 489.
31. Laser breakdown with millijoule trains of picosecond pulses transmitted through a hollow- core photonic crystal fiber Konorov, S.O., Fedotov, A.B., Kolevatova, O.A., Beloglazov, V.I., Skibina, N.B., Shcherbakov , A. V., Wintner, E., Zheltikov` A. M., Journal of Physics D: Applied Physics, Volume 36, Issue 12, pp. 1375-1381 (2003).
32. New generation of polycapillary lenses: manufacture and applications A. Bjeoumikhov, N. Langhoff, R. Wedell, V. Beloglazov, N. Lebedev, N.Skibina, X-Ray Spectrometry 32: 172-178 (2003).
33. Photonic Fibers And Methods For The Production Thereof / Internationale Veroffentlichungsnummer WO 2004/038466 A2 / PCT /Anmeldedatum: 22.10.2003 / Internationales Veroffentlichungsdatum 6.Mai 2004 / N.Skibina,V.Beloglazov.
34. Generation of a 3-octave white-light continuum in a high-n2 microstructure fiber with normal dispersion in the visible/near-infrared spectral region / Glas P., Fischer D., Steinmeyer G., Iliew R., Skibina Y.S., Skibina N.B., Beloglasov V.I //CLEO-2004- May. - San Francisco, CA, USA.
35. Generation of a 3-octave white-light continuum in soft glass microstructure fiber / Glas P., Fischer D., Skibina Y.S., Tuchin V.V., Skibina N.B., Beloglasov V.I., Wedell R. //APOC-2004-November-Beijing, China.
36. Generation of ultra broadband supercontinuum in soft glass microstructure fiber Glas P., Fischer D., Skibina Y.S., Tuchin V.V., Skibina N.B., Beloglasov V.I., Wedell R. //OSAV-2004-October-Sant-Petersburg, Russia.
37. Spatiotemporal Self-Action of Subgigawatt Femtosecond Laser Pulses in Hollow Photonic-Crystal Fibers S. O. Konorov, Ping Zhou, V. I. Beloglazov, N. B. Skibina, A. P. Tarasevitch, D. von der Linde, and A. M. Zheltikov Laser Physics, 2004, Vol.14, No.5 p.733.
38. Transmission of Ultrashort Pulses through Hollow Photonic-Crystal Fibers with Passbands in the Visible and Infrared Spectral Ranges S. O. Konorov, A. B. Fedotov, V. I. Beloglazov, N. B. Skibina, M. Scalora, M. Vaselli, and A. M. Zheltikov Laser Physics, 2004, Vol.14, No.5p.780.
39. Femtosecond Coherent Anti-Stokes Raman Scattering Spectroscopy Using Frequency-Tunable Chirped Pulses Produced and Shaped in a Photonic-Crystal Fiber S. O. Konorov, D. A. Akimov, A. A. Ivanov, M. V. Alfimov, V. I. Beloglazov, N. B. Skibina, and A. M. Zheltikov Laser Physics, 2004, Vol.14, No.5 p.785.
40. Femtosecond coherent anti-Stokes Raman scattering spectroscopy using frequency-tunable radiation generatedin microstructure fibres Akimov D A, Konorov S O, Alfimov M V, Ivanov A A, Beloglazov V I, Skibina N B, Fedotov A B, Sidorov-Biryukov D A, Petrov A N, Zheltikov A M Quantum Electronics, 2004, 34(5), 473-476.
41. Envelope and phase evolution of femtosecond pulses in hollow photonic-crystal fibres Konorov S O, Fedotov A B, Beloglazov V I, Skibina N B, Shcherbakov A V, Zheltikov A M Quantum Electronics, 2004, 34(1), 51-55.
42. Self-phase modulation of femtosecond pulses in hollow photonic-crystal fibres Konorov S O, Sidorov-Biryukov D A, Bugar I, Chorvat D J, Beloglazov V I, Skibina N B, Melnikov L A, Shcherbakov A V, Chorvat D, Zheltikov A M Quantum Electronics, 2004, 34(1), 56-58.
43. Experimental demonstration of a photonic-crystal-fiber optical diode S.O.Konorov, D.A.Sidorov-Biryukov, I.Bugar, M.J.Bloemer, V.I.Beloglazov, N.B.Skibina, D.Chorvat Jr., D.Chorvat, M.Scalora and A.M.Zheltikov, Applied Physics B, Volume 78, Number 5, March 2004, Pages :547 – 550.
44. Supercontinuum generation in a two-dimensional photonic kagome crystal P. Glas, D. Fischer, G. Steinmeyer, A. Husakou, J. Herrmann, R. Iliew, N. B. Skibina,V. I. Beloglasov, and Y. S. Skibina, Special Issue on Photonic Crystals, Appl. Phys. B 81, 209-17 (2005).
45. Spectral properties of a soft glass photonic crystal fiber Julia Skibina, V.I. Beloglazov, M.V. Chainikov, V.V. Tuchin, J. X-Ray Science and Technology, Vol.13, No 4, pp. 171 – 177, 2005.
46. Technologie of manufacturing policapillary optics for x-ray engineering Julia Skibina, V.I. Beloglazov, M.V. Chainikov, V.V. Tuchin, N.Langhoff, A.Bjeoumikhov, S.Bjeoumikhova, N.Skibina, R.Wedell, J. X-Ray Science and Technology, Vol.13, No 4, pp. 178 – 183, 2005.
47. Optical Transmission of Hollow Glass Photonic-Crystal Fibers Julia Skibina, V.I. Beloglazov, M.V. Chainikov, V.V. Tuchin, Technical Physics Letters, Vol. 31, No. 12, 2005, pp. 1019–1021.
48. Sensing properties oh photonic crystal fiber with hollow core Julia Skibina, V.I. Beloglazov, M.V. Chainikov, V.V. Tuchin, Technical Physics Letters, 2008, vol. 34, №15, p.63-69.
49. A chirped photonic crystal fiber Julia S.Skibina, Rumen Iliew, Jens Bethge, Martin Bock, Dorit Fischer, Valentin I. Beloglasov, Reiner Wedell, and Gunter Steinmeyer, Nature Photonics, 2008, vol.2, p.679-683.
50. Biological Sensor Based on a Hollow-Core Photonic Crystal Fiber / Skiina J.S., Malinin A.V., Mihaylova N.A., Silohin I.Yu., Chaynikov M.V. // PZhTF, 2010, vol. 36, edition. 8, p.33-38.
51. Determination of blood types using a chirped photonic crystal fiber / Malinin A.V., A. A. Zanishevskaja, Yu. S. Skibina, I. Yu. Silokhin, V. V. Tuchin, V. A. Dubrovskiy, A. A. Dolmashkin // Proceedings of SPIE Dynamics and Fluctuations in Biomedical Photonics VIII, Vol. 7898, 78981A (2011). DOI: 10.1117/12.879794
52. Фотонно-кристаллические волноводы в биомедицинских исследованиях (обзор) / Скибина Ю. С., Тучин В. В., Белоглазов В. И., Штейнмаеер Г., Бетге Й. Л., Ведель Р., Лангхофф Н. // Квантовая Электроника, 2011, том 41, № 4, стр. 284-302
53. Применение фотонно-кристаллических волноводов с полой сердцевиной в качестве биологических сенсоров / Малинин А.В., Ю.С.Скибина, В.В.Тучин, М.В.Чайников, В.И.Белоглазов, И.Ю.Силохин, А.А.Занишевская, В.А.Дубровский, А.А.Долмашкин // Журнал Квантовая электроника, 2011, 41 (4), стр. 302–307.
54. Исследование эффективности применения аксиально-симметричных отражательных рентгенооптических элементов из стекла на лабораторных источниках / Скибина Ю.С., Якимчук И.В., Бузмаков A.В., Асадчиков В.Е., Скибина Н.Б., Белоглазов В.И. // Заводская лаборатория. диагностика материалов, 2011, том 77, № 6, стр.26-32
55. Photonic crystal fibers in biophotonics / Valery V. Tuchin, Julia S. Skibina, Malinin A.V. // Proc. SPIE, Optical Sensors and Biophotonics III, 83110N (2011); doi:10.1117/12.902647
56. Oxidase method for glucose determination using long-period grating waveguide / Malinin A.V., A.A. Zanishevskaja, V. V. Tuchin, Yu. S. Skibina, I. Yu. Silokhin. // Proceedings of SPIE Dynamics and Fluctuations in Biomedical Photonics IX, Vol. 8222, 82221B (2012), DOI: 10.1117/12.914547
57. Photonic crystal fibers for food quality analysis / Malinin A.V., A. A. Zanishevskaja, V. V. Tuchin, Yu. S. Skibina, I. Y. Silokhin // Proceedings of SPIE Biophotonics: Photonic Solutions for Better Health Care III, Vol. 8427, 842746 (2012), DOI: 10.1117/12.924096
58. Анализ фруктовых соков при помощи фотонно-кристаллических волноводов с полой сердцевиной / Занишевская А. А., Малинин А.В., Скибина Ю. С., Тучин В. В., Чайников М. В., Белоглазов В. И., Силохин И. Ю., Ермакова А. М. // Известия Саратовского университета. Новая серия. 2012. Т. 12. Сер. Физика, вып. 2, стр. 58-64.
59. Photonic crystal waveguide biosensor / Malinin A.V., A. A. Zanishevskaja, V. V. Tuchin, Yu. S. Skibina, I. Yu. Silokhin // Journal of Innovative Optical Health Sciences, Vol. 6, No. 2 (2013) 1350008, DOI: 10.1142/S1793545813500089
60. Определение концентрации глюкозы в биологических жидкостях при помощи фотонно-кристаллических волноводов / А.А.Занишевская, Малинин А.В., Ю.С. Скибина, В.В. Тучин, М.В. Чайников, В.И. Белоглазов, И.Ю. Силохин, А.М.Ермакова // Оптика и спектроскопия, 2013, том 115, №2, с.266-271
61. Nanostructured fibers for sub-10 fs optical pulse delivery / Dr. G. Steinmeyer, M. Bock, D. Fischer, Dr. R. Grunwald, Valentin Beloglazov, Julia Skibina // Laser Photonics Rev. 7, No. 4, 566 – 570 (2013)
62. A study on the application of chirped photonic crystal fiber in multiphoton microscopy / Jiali Yu, Haishan Zeng; Harvey Lui M.D., Julia S. Skibina, Gunther Steinmeyer, Shuo Tang // Proceedings SPIE «Multiphoton Microscopy in the Biomedical Sciences» XIII, Vol. 8588 (2013), стр. 85882R
63. Portable Biosensing of Food Toxicants and Environmental Pollutants Chapter 1. Photonic Crystal Waveguide Sensing / J. S. Skibina, A. V. Malinin, A. A. Zanishevskaya, V. V. Tuchin // CRC Press 2013 Print ISBN: 978-1-4665-7632-2 eBook ISBN: 978-1-4665-7633-9
64. Microdtructured waveguides for serological examination of blood / Zanishevskaya A.A., Shuvalov A.A., Skibina Yu.S., Tuchin V.V. // Progress in Biomedical Optics and Imaging - Proceedings of SPIE Optical Technologies in Biophysics and Medicine XVI; Laser Physics and Photonics XVI; and Computational Biophysics. 2014. С. 944807.
65. Quantum dots as luminescent labels for fiber waveguides based optical biosensors / Zharkova I.S., Markina N.E., Markin A.V., Drozd D.D., Skibina Y.S., Goryacheva I.Y. // Наночастицы, наноструктурные покрытия и микроконтейнеры: технология, свойства, применения Scientific program 6th International Conference. 2015. С. 40.
66. Биосенсоры на основе фотонно-кристаллических волноводов с модифицированной внутренней поверхностью / Бурмистрова Н.А., Пиденко С.А., Скибина Ю.С., Горячева И.Ю. // Тезисы докладов X Всероссийской конференции «Химия и медицина» с Молодежной научной школой 2015. С. 98-99.
67. Blood typing using microstructured waveguide smart cuvette / Zanishevskaya A.A., Shuvalov A.A., Skibina Y.S., Tuchin V.V. // Journal of Biomedical Optics. 2015. Т. 20. № 4. С. 040503.
68. Microstructured waveguides for express analysis of water, coffee, tea, wine, and spirit / Zanishevskaya A.A., Shuvalov A.A., Skibina Y.S., Tuchin V.V. // BioPhotonics (BioPhotonics), 2015 International Conference on. – IEEE, 2015. – С. 1-5.
69. Modification of inner surface of photonic crystal fibers with self-assembled polyaniline films / Pidenko S.A., Pidenko P.S., Bondarenko S.D., Shuvalov A.A., Burmistrova N.A., Goryacheva I.Y. // Saratov Fall Meeting 2015. – International Society for Optics and Photonics, 2016. – С. 99171F-99171F-6.
70. Trends in biosensor development: Multifunctional platforms and enhanced labels / Goryacheva I.Y., Skibina Y.S., Pidenko S.A., Burmistrova N.A., Shuvalov A.A., Chibrova A.A. // Laser Optics (LO), 2016 International Conference. – IEEE, 2016. – С. S2-35-S2-35.
71. Quantum dots luminescence in the photonic cristal fibers modified with polymer layers / Pidenko S.A., Bondarenko S.D., Chibrova A.A., Shuvalov A.A., Burmistrova N.A., Skibina Y.S., Goryacheva I.Y. // Laser Optics (LO), 2016 International Conference. – IEEE, 2016. – С. R9-16-R9-16.
72. Controlled chemical modification of the internal surface of photonic crystal fibers for application as biosensitive elements / Pidenko S.A., Burmistrova N.A., Pidenko P.S., Shuvalov A.A., Chibrova A.A., Skibina Y.S., Goryacheva I.Y. // Optical Materials. – 2016. – Т. 60. – С. 283-289.
73. Characterization of nanographitized activated porous carbons / Chibrova A.A., Shuvalov A.A., Skibina J.S., Kochia V.A., Os’makov M.I., Shevchenko A.O. // Nanotechnologies in Russia. – 2016. – Т. 11. – №. 11-12. – С. 791-800.
74. The optical properties of quantum dots integrated in a hollow core photon crystal fiber / Pidenko S.A., Burmistrova N.A., Pidenko P.S., Bondarenko S.D., Shuvalov A.A., Chibrova A.A., Skibina Y.S., Goryacheva I.Y. // Saratov Fall Meeting 2016: Fourth International Symposium on Optics and Biophotonics. – International Society for Optics and Photonics, 2017. – С. 103360N-103360N-4.
75. Synthesis of SERS-nanotags and their investigation inside photonic crystal fiber / Markina N.E., Markin A.V., Galushka V.V., Zakharevich A.M., Skibina Y.S., Goryacheva I.Y. // Saratov Fall Meeting 2016: Fourth International Symposium on Optics and Biophotonics. – International Society for Optics and Photonics, 2017. – С. 103360M-103360M-8.
76. Мodification of the internal surface of photonic crystal fibers with Ag and Au nanoparticles for application as sensor elements / Pidenko P.S., Borzov V.M., Savenko O.A., Skaptsov A.A., Skibina Y.S., Goryacheva I.Y., Rusanova T.Y. // Saratov Fall Meeting 2016: Optical Technologies in Biophysics and Medicine XVIII. – International Society for Optics and Photonics, 2017. – Т. 10336. – С. 103360T.
77. The red shift of the semiconductor quantum dots luminescence maximum in the hollow core photonic crystal fibers / Chibrova A.A., Shuvalov A.A., Skibina Y.S., Pidenko P.S., Pidenko S.A., Burmistrova N.A., Goryacheva I.Y. // Optical Materials. – 2017. – Т. 73. – С. 423-427.
78. Layer-by-layer polyelectrolyte coating for surface-enhanced Raman scattering on gold nanostars inside hollow core photonic crystal fibers / Burmistrova N.A., Bondarenko S.D., Bratashov D.N., Shuvalov A.A., Chibrova A.A., Khlebtsov B.N., Skibina Y.S., Goryacheva I.Y. // Saratov Fall Meeting 2017: Optical Technologies in Biophysics and Medicine XIX. – International Society for Optics and Photonics, 2018. – Т. 10716. – С. 107161D.
79. Application of microstructural optical waveguides with hollow core for enzyme immunoassay / Pidenko P.S., Pidenko S.A., Burmistrova N.A., Shuvalov A.A., Chibrova A.A., Skibina Y.S., Goryacheva I.Y. // Saratov Fall Meeting 2017: Optical Technologies in Biophysics and Medicine XIX. – International Society for Optics and Photonics, 2018. – Т. 10716. – С. 107161V.
80. Monitoring of copper nanoparticle penetration into dentin of human tooth in vitro / Selifonov A.A., Glukhovskoy E.G., Skibina Y.S., Zakharevich A.M., Begletsova N.N., Tuchin V.V. // Saratov Fall Meeting 2017: Optical Technologies in Biophysics and Medicine XIX. – International Society for Optics and Photonics, 2018. – Т. 10716. – С. 107161A.
81. Microstructured Waveguides with Polyelectrolyte-Stabilized Gold Nanostars for SERS Sensing of Dissolved Analytes / Bratashov D., Burmistrova N., Bondarenko S., Khlebtsov B., Atkin V., Shuvalov A., Zanishevskaya A., Skibina Y., Goryacheva I. // Materials. – 2018. – Т. 11. – №. 5. – С. 734.
82. Microstructured optical fiber-based luminescent biosensing: Is there any light at the end of the tunnel?-A review / Pidenko S.A., Burmistrova N.A., Shuvalov A.A., Chibrova A.A., Skibina Y.S., Goryacheva I.Y. // Analytica chimica acta. – 2018. – Т. 1019. – С. 14-24.

Патенты

Патенты Советского Союза

1. Patent of the Soviet Union, "Plant for making glass mouldings", № 566784, 30.07.1977, Pshentsov Yurij A; Skibin Sergej A; Beloglazov Valentin; Dobrov Gennadij S; Vajsman Naum B; Kupryashina Nina B; Fedorycheva Nina B; shapoval georgij; Kubesh Viktor B; Avdeev Dmitrij V.
2. Patent of the Soviet Union, "Method of manufacturing high-precision capillary glass tubes", № 647264, 15.02.1979, Pshentsov Yurij A; Dobrov Gennadij S; Fedorycheva Nina B; Skibin Sergej A; Vajsman Naum B; Beloglazov Valentin; Kupryashina Nina B; Pavlychev Vyacheslav N; Soldatova Lyudmila P.
3. Patent of the Soviet Union, "She power source for accelerating systems of charged particle accelerators", № 794786, 23.12.1982, Beloglazov V I; Sdobnova L N.
4. Patent of the Soviet Union, "Method of making glass capillaries", № 827428, 07.05.1981, Lebedev Nikolaj F; Beloglazov Valentin I; Malyshev Dmitrij S; Dobrov Gennadij S; Pshentsov Yurij A.
5. Patent of the Soviet Union, "Method of manufacturing glass metallic screen, mainly matrix grates", № 834799, 30.05.1981, Semina Nadezhda P; Skibina Nina B; Malyshev Dmitrij S; Lebedev Nikolaj F; Pshentsov Yurij A; Beloglazov Valentin I; Dobrov Gennadij S; Reshetarov Vladimir A; Nemolyaeva Nadezhda I.
6. Patent of the Soviet Union, "Apparatus for applying polymeric coating to fibrous light guide", № 912691, 15.03.1982, Pshentsov Yurij A; Beloglazov Valentin I; Vajsman Naum B; Dobrov Gennadij S; Soldatova Lyudmila P; Gavrilyuk Evgenij K; Lebedev Nikolaj F; Malyshev Dmitrij S.
7. Patent of the Soviet Union, "Method for making flat capillaries", № 967970, 23.10.1982, Dobrov Gennadij S; Beloglazov Valentin I; Pshentsov Yurij A; Malyshev Dmitrij S; Lebedev Nikolaj F; Skibina Nina B; Gorchakov Lev G; Gorchakov Yurij L.
8. Patent of the Soviet Union, "Fibre-optic plate", № 1146618, 23.03.1985, Beloglazov V I [su]; Pshentsov Yu A [su]; Dobrov G S [su]; Lebedev N F [su]; Skibina N B [su]; Romanov G P [su]; Ovcharov E I [su].
9. Patent of the Soviet Union, "Apparatus for drawing glass articles", № 1645243, 30.04.1991, Nedranets Yurij I; Lebedev Nikolaj F; Dulin Yurij A; Krupoderov Vladimir A; Beloglazov Valentin I.
10. Patent of the Soviet Union, "Oven for drawing glass articles", № 1677024, 15.09.1991, Dulin Yurij A; Beloglazov Valentin I; Lebedev Nikolaj F; Kotlyarova Elena A; Pershin Ivan M; Gerasimov Sergej M; Platov Eduard A; Shatalin Igor B; Nedranets Yurij I.
11. Patent of the Soviet Union, "Method of manufacture of holder frame for vacuum luminescent indicator module", № 1705241, 15.01.1992, Lebedev Nikolaj F; Ermakov Gennadij L; Nagaev Oleg A; Gorfinkel Boris I; Platov Eduard A; Beloglazov Valentin I; Skibina Nina B.
12. Patent of the Soviet Union, "Method of manufacturing fine sheet glass", № 1728138, 23.04.1992, Beloglazov Valentin I; Dobrov Gennadij S; Nedranets Yurij I; Gavrilyuk Evgenij K; Gorfinkel Boris I; Lebedev Nikolaj F; Skibina Nina B; Platov Eduard A; Nagaev Oleg A; Doskov Mikhail K.

Патенты Российской Федерации

1. Patent of the Russian Federation, "Method of producing flat multichannel capillary", № 1187400, 10.09.1995, Malyshev D S [su]; Beloglazov V I [su]; Lebedev N F [su]; Platov E A [su]; Dobrov G S [su]; Pshentsov Yu A [su]; Skibina N B [su]; Astafeva N G [su]; Gorchakov L G [su]; Gorchakov Yu L [su].
2. Patent of the Russian Federation, "Glass-melting vessel", № 1187400, 27.09.1995, Dobrov G S [su]; Beloglazov V I [su]; Pshentsov Yu A [su]; Malyshev D S [su]; Lebedev N F [su]; Platov E A [su]; Skibina N B [su]; Polukhin V N [su].
3. Patent of the Russian Federation, "Furnace thermostating device in glass drawing installation", № 1365628, 10.12.1995, Osipov B N [su]; Beloglazov V I [su]; Lebedev N F [su]; Shapoval G I [su].
4. Patent of the Russian Federation, "Method of making diaphragms", № 1398637, 20.10.1995, Vasin L N [su]; Korobchenko I A [su]; Beloglazov V I [su]; Frolov Yu A [su]; Lebedev N F [su].
5. Patent of the Russian Federation, "Glass-melting vessel", № 1431264, 10.12.1995, Dobrov G S [su]; Beloglazov V I [su]; Skibina N B [su]; Malyshev D S [su]; Lebedev N F [su]; Platov E A [su]; Osipov B N [su]; Romanov G P [su].
6. Patent of the Russian Federation, "Microcanal plates block production method", № 1594887, 27.10.1995, Beloglazov V I [su]; Skibina N B [su]; Lebedev N F [su]; Vajsman N B [su]; Makarov E N [su]; Platov E A [su]; Kulov S K [su].
7. Patent of the Russian Federation, "Glass-melting crucible", № 1601946, 20.01.1996, Beloglazov V I [su]; Dobrov G S [su]; Skibina N B [su]; Lebedev N F [su]; Malyshev D S [su]; Krupoderov V A [su]; Kulov S K [su]; Osipov B N [su]; Platov E A [su]; Romanov G P [su].
8. Patent of the Russian Federation, "Method for manufacturing spacers for liquid-crystal screens", № 1663904, 20.09.1995, Lebedev N F [su]; Beloglazov V I [su]; Ermakov G L [su]; Shatalin I B [su]; Malyshev D S [su]; Skibina N B [su]; Nagaev O A [su]; Gorfinkel B I [su]; Nedranets Yu I [su]; Platov E A [su].
9. Patent of the Russian Federation, "Furnace for drawing of glass articles", № 1793664, 09.02.1995, Dulin Yu A [ru]; Beloglazov V I [ru]; Lebedev N F [ru]; Ermakov G L [ru]; Skibina N B [ru]; Platov E A [ru].
10. Patent of the Russian Federation, "Cuvette for studying ejaculate", № 1812964, 30.04.1993,Eskov Andrej P; Lebedev Nikolaj F; Beloglazov Valentin I.
11. Patent of the Russian Federation, "Method for manufacture of frame holder of vacuum luminescent indicator module", № 1815247, 15.05.1993, Beloglazov Valentin I; Gorfinkel Boris I; Nagaev Oleg A; Lebedev Nikolaj F; Nedranets Yurij I; Pshentsov Yurij A; Skibina Nina B; Ermakov Gennadij L; Zhigalov Valerij A; Platov Eduard A.
12. Patent of the Russian Federation, "Method for production of microchannel plates", № 1828330, 20.08.1996, Pluzhnikova E V [su]; Lebedev N F [su]; Beloglazov V I [su]; Nedranets Yu I [su]; Skibina N B [su]; Platov E A [su]; Shyutte N M [su]; Kulov S K [su]; Savin A I [su]; Kumakhov M A [su].
13. Patent of the Russian Federation, "X-ray optical system manufacturing process", № 1829723, 20.11.1995, Lebedev N F [su]; Beloglazov V I [su]; Skibina N B [su]; Mikhajlov I P [su]; Vajsman N B [su]; Nedranets Yu I [su]; Kumakhov M A [su]; Gubarev M V [su]; Ponomarev I Yu [su].
14. Patent of the Russian Federation, "Method for manufacturing test X-ray targets", № 2055418, 27.02.1996, Lebedev Nikolaj F; Nedranets Yurij I; Skibina Nina B; Beloglazov Valentin I.
15. Patent of the Russian Federation, "Process of manufacture of roentgenoptical systems", № 2059315, 27.04.1996, Beloglazov Valentin I; Kumakhov Muradin A; Gubarev Mikhail V; Skibina Nina B; Nedranets Yurij I; Lebedev Nikolaj F; Pluzhnikova Elena V.
16. Patent of the Russian Federation, "Method of manufacturing microdevices from plastically deformable materials", № 2085523, 27.07.1997, Beloglazov Valentin I; Sukhoveev Sergej P.
17. Patent of the Russian Federation, "Dynamically tuned gyroscope", № 2158902, 10.11.2000, Plotnikov P K; Kudrjavtsev M V; Beloglazov V I; Sukhoveev S P; Skibin S A; Skibina Ju S; Shcherbakov A V.
18. Patent of the Russian Federation, "Method for manufacturing autoemission cathode matrix", № 2183362, 10.06.2002, Baturin A S; Beloglazov V I; Lebedev N F; Skibina N B; Shcherbakov A V; Sheshin E P.
19. Patent of the Russian Federation, "Device for purification of potable water", № 2213059, 27.09.2003, Skidanov E V; Ramzaev A P; Beloglazov V I.
20. Patent of the Russian Federation, "Method of measuring dispersion of optical wave guiding systems", № 2308012, 10.10.2007, Akchurin Aleksandr Garifovich [ru]; Akchurin Garif Gazizovich [ru]; Skibina Julija Sergeevna [ru].
21. Patent of the Russian Federation, "Device of delivery and analysis of biological tests and method of its producing", № 2323978, 10.05.2008, Beloglazov Valentin Ivanovich [ru]; Skibina Nina Borisovna [ru]; Tuchin Valerij Viktorovich [ru]; Skibina Julija Sergeevna [ru].
22. Patent of the Russian Federation, "Радиационно-прочный сцинтилляционный детектор", № 85680, 10.08.2009, Белоглазов В.И., Кедров В.В., Классен Н.В., Кобелев Н.П., Кривко О.А., Кудренко Е.А., Скибина Ю.С., Шмытько И.М., Шмурак С.З.
23. Patent of the Russian Federation, "Зонная пластинка и способ ее изготовления", № 2009139985, 10.05.2011, Асадчиков В.Е., Андреев А.В., Белоглазов В.И., Ковальчук М.В., Коновко А.А., Скибина Ю.С., Тучин В.В., Якимчук И.В.
24. Patent of the Russian Federation, "Metal-dielectric structure and method of its manufacturing", № 2558156, 27.07.2014, Os'makov Mikhail Ivanovich [ru]; Ermakova Anna Mikhajlovna [ru]; Skibina Julija Sergeevna [ru]; Malinin Anton Vladimirovich [ru]; Beloglazova Elena Valentinovna [ru]; Karpova Elena Petrovna [ru]; Chajnikov Mikhail Valer'evich [ru]; Silokhin Igor' Jur'evich [ru].
25. Patent of the Russian Federation, "Multi-channel nozzle for extraction of nucleic acids, proteins and peptides", № 2547597, 10.04.2015, Skibina Julija Sergeevna [ru]; Beloglazov Valentin Ivanovich [ru]; Tuchin Valerij Viktorovich [ru]; Kapustin Dmitrij Valer'evich [ru]; Prostjakova Anna Igorevna [ru].
26. Patent of the Russian Federation, "Photon-crystal chalcogenide fibre and method of its production", № 2552590, 10.06.2015, Skibina Julija Sergeevna [ru]; Shuvalov Andrej Aleksandrovich [ru]; Chajnikov Mikhail Valer'evich [ru]; Silokhin Igor Jur'evich [ru]; Zanishevskaja Anastasija Andreevna [ru]; Tuchin Valerij Viktorovich [ru]; Gjunter Shtejnmaer [de].

Патенты Германии

1. Patent of the Germany, "Photonic fiber with central region and surrounding channels, includes two metallic conductors running close to and along central fiber", № 10250216, 29.04.2004, Skribina Nina [de]; Beloglazov Valentin [de].
2. Patent of the Germany, "Photonic crystal fiber, to generate a super continuum in a wide spectral range, has a center fiber flanked by metal conductors within a mantle shrouding forming inner and outer hollow zones", № 10330361, 03.02.2005, Skibina Nina [de]; Beloglazov Valentin [de].

Мировые патенты

1. Patent of the World Intellectual Property Organization, "Energy-saving lamp and method and device for producing the same", № 9965059, 16.12.1999, Langhoff Norbert [de]; Chterbakov Andrej Vladimirovic [ru]; Beloglazov Valentin Ivanovich [ru]; Lebedev Nikolaj Fedorovich [ru]; Skibina Nina Borisovna [ru].
1. Patent of the World Intellectual Property Organization, "Photonic fibers and methods for the production thereof", № 2004038466, 06.05.2004, Skibina Nina [de]; Beloglazov Valentin [de].
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