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Москва, Ленинский пр-т. 6. стр.7

(территория НИТУ "МИСиС")

  1. F.S.Senatov, K.V.Niaza, M.Yu.Zadorozhnyy, A.V.Maksimkin, S.D.Kaloshkin, Y.Z.Estrin. Mechanical properties and shape memory effect of 3D-printed PLA-based porous scaffolds // Journal of the Mechanical Behavior of Biomedical Materials 57 (2016) 139-148

  2. K. V. Niaza, F S Senatov, S. D. Kaloshkin, A. V. Maksimkin and D. I. Chukov. 3D-printed scaffolds based on PLA/HA nanocomposites for trabecular bone reconstruction // Journal of Physics: Conference Series 741 (2016) 012068

  3. F.S. Senatov, K.V. Niaza, A.A. Stepashkin, S.D. Kaloshkin. Low-cycle fatigue behavior of 3d-printed PLA-based porous scaffolds / Composites Part B 97 (2016) 193–200

  4. Kirill V. Niaza, Fedor S. Senatov, Andrey S. Stepashkin, Natalia Yu. Anisimova, Mikhail V. Kiselevsky. Long-Term Creep and Impact Strength of Biocompatible 3D-Printed PLA-Based Scaffolds / Nano Hybrids and Composites Vol. 13 (Chapter 1: Nanomedicine and Nanopharmacology) p.15-20​

  5. F.S. Senatov, M.Yu. Zadorozhnyy, K.V. Niaza, V.V. Medvedev, S.D. Kaloshkin, N.Yu Anisimova, M.V. Kiselevskiy, Kai-Chiang Yang. Shape memory effect in 3D-printed scaffolds for self-fitting implants / European Polymer Journal 93C (2017) pp. 222-231

  6. Kirill Niaza, Fedor Senatov, Natalia Anisimova, Mikhail Kiselevskiy, Sergey Kaloshkin. Effect of Co-incubation with Mesenchymal Stromal Cells in Cultural Medium on Structure and Mechanical Properties of Polylactide-Based Scaffolds / BioNanoScience, DOI 10.1007/s12668-017-0429-8

Все сотрудники ООО "Биомиметикс" являются действующими сотрудниками различных университетов и имеют значительный опыт выполнения исследовательских работ, который подтверждается публикациями.

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Материалы и имплантаты на основе СВМПЭ

  1. A.V. Maksimkin, S.D. Kaloshkin, M.S. Kaloshkina, M.V. Gorshenkov, V.V. Tcherdyntsev, K.S. Ergin, I.V. Shchetinin. Ultra-high molecular weight polyethylene reinforced with multi-walled carbon nanotubes: Fabrication method and properties // Journal of Alloys and Compounds. 2012. V. 536. P. S538-S540.

  2. Sergey Kaloshkin, Aleksey Maksimkin, Maria Kaloshkina, Mihail Zadorozhnyy and Margarita Churyukanova. Shape Memory Behavior of Ultra-High Molecular Weight Polyethylene // MRS Proceedings. 2012. V. 1403. P. 91-97.

  3. S.Y. Lanina, A.V. Maksimkin, N.M. Kaminskaya, S.D. Kaloshkin, N.E. Benyaev, V.V. Cherdyntsev, V.Y. Suslova, V.D. Danilov, and Dzigaeva. Development of acetabular component for endoprosthesis of hip and knee joints // Biomedical Engineering. – 2012. – Vol.46. – N2. – P.53-57.

  4. A. V. Maksimkin, S. D. Kaloshkin, V. V. Tcherdyntsev, F. S. Senatov, and V. D. Danilov. Structure and properties of ultra-high molecular weight polyethylene filled with disperse hydroxyapatite // Inorganic Materials: Applied Research. – 2012. – Vol.3 - №4. – P. 288-295.

  5. A. Maksimkin, S. Kaloshkin, M. Zadorozhnyy, V. Tcherdyntsev Comparison of shape memory effect in UHMWPE for bulk and fiber state // Journal of Alloys and Compounds. – 2014. V586. – P.s214-s217.

  6.  A.V. Maksimkin, S.D. Kaloshkin, V.V. Tcherdyntsev, D.I. Chukov, I.V. Shetinin. Effect of high-energy ball milling on the structure and mechanical properties of ultra-high molecular weight polyethylene // Journal of applied polymer science. – 2013. – V.130 – P.2971-2977.

  7.  A.V. Maksimkin, S.D. Kaloshkin, V.V. Tcherdyntsev, D.I Chukov and A.A. Stepashkin. Technologies for manufacturing ultrahigh molecular weight polyethylene-based porous structures for bone implants // Biomedical Engineering. – 2013. – V. – 47. - №2. – P. 73-77.

  8. А.Н. Копылов, А.В. Максимкин, Н.Ю. Анисимова, Ф.С. Сенатов, Д.И. Чуков, В.В. Чердынцев, О.В. Лебединская, М.В. Кисилевский. Сверхвысокомолекулярный полиэтилен как основа пористых имплантатов для восстановления костных дефектов. Исследование in vivo. // Российский биотерапевтический журнал. №4, Том 12, 2013, с.39-42.

  9. Максимкин А.В., Чуков Д.И., Степашкин А.А., Чердынцев В.В. Исследование гелей на основе СВМПЭ методом дифференциальной сканирующей калориметрии. Современные проблемы науки и образования. №5, 2013.

  10. Максимкин А.В., Чуков Д.И., Степашкин А.А., Чердынцев В.В. Опыт исследования механических свойств высокопрочного волокна на основе сверхвысокомолекулярного полиэтилена. Современные проблемы науки и образования. №6, 2013.

  11. F.S Senatov, A.N. Kopylov, N.Yu. Anisimova, M.V. Kiselevsky, A.V. Maksimkin. UHMWPE-based nanocomposites as a material for damaged cartilage replacement. Materials Science and Engineering C. – 2015. – №48. – P.566-571.

  12. D.I. Chukov, A.A. Stepashkin, A.V. Maksimkin, V.V. Tcherdyntsev, S.D. Kaloshkin, K.V. Kuskov, V.I. Bugakov. Investigation of structure, mechanical and tribological properties of short carbon fiber reinforced UHMWPE-matrix composites // Composites Part B -2015. – V.76 – P.79-88

  13. Д.Ю. Залепугин, А.В. Максимкин, Н.А. Тилькунова, И.В. Чернышова, Ф.С. Сенатов, М.И. Власов. Использование субкритической воды в технологиях получения пористого сверхвысокомолекулярного полиэтилена // Сверхкритические флюиды: Теория и практика. 2015. Т. 10. № 1. С. 70-77.

  14. A. P. Kharitonov, A. V. Maksimkin, K. S. Mostovaya, S. D. Kaloshkin, M. V. Gorshenkov, T. P. D'yachkova. Reinforcement of bulk ultrahigh molecular weight polyethylene by fluorinated carbon nanotubes insertion followed by hot pressing and orientation stretching // Composites Science and Technology. -2015. – V.120 – P.26-31.

  15. A.V. Maksimkin, A.P. Kharitonov, K.S. Mostovaya, S.D. Kaloshkin, M.V. Gorshenkov, F.S. Senatov, D.I. Chukov, V.V. Tcherdyntsev Bulk oriented nanocomposites of ultrahigh molecular weight polyethylene reinforced with fluorinated multiwalled carbon nanotubes with nanofibrillar structure // Composites Part B 94 (2016) 292-298.

  16. D.Y Zalepugin., A.V. Maksimkin, N.A. Tilkunova, I.V. Chernyshova, F.S. Senatov, M.I. Vlasov. Preparation of porous ultrahigh-molecular-weight polyethylene using subcritical water // Russian Journal of Physical Chemistry B. – 2015. – V. – 9. - №8. – P. 1157-1161.

  17. A.V. Maksimkin,  F. S. Senatov, V. D. Danilov, K. S. Mostovaya, S. D. Kaloshkin, M. V. Gorshenkov, A. P. Kharitonov, D. I. Chukov. Transformation of the lamellar structure into nanofibrillar structure in the bulk oriented ultra high molecular weight polyethylene: mechanical and tribological properties // Mendeleev Commun., 2016, 26, 350–352.

  18. A.V. Maksimkin, A.P. Kharitonov, S.G. Nematulloev, S.D. Kaloshkin, M.V. Gorshenkov, D.I. Chukov, I.V. Shchetinin. Fabrication of oriented UHMWPE films using low solvent concentration // Materials and Design 115 (2017) 133–137.

  19. A.V. Maksimkin, D.I. Chukov, F.S. Senatov, A.I. Salimon. Comparative analysis of the tribological characteristics of canine joint cartilage and UHMWPE-based biomimetic materials // Materials Letters 191 (2017) 105–107

  20. A.V. Maksimkin, F.S. Senatov, N.Yu. Anisimova, M.V. Kiselevskiy, D.Yu. Zalepugin, I.V. Chernyshova, N.A. Tilkunova, S.D. Kaloshkin. Multilayer porous UHMWPE scaffolds for bone defects replacement // Materials Science and Engineering C 73 (2017) 366–372.

  21. Максимкин А.В., Мостовая К.С., Калошкин С.Д., Задорожный М.Ю. Исследование реактивных напряжений в высокоориентированных волокнах СВМПЭ // Фундаментальные исследования. – 2016. – № 12-4. – С. 754-759;

  22. A.V. Maksimkin, K.S. Mostovaya, F.S. Senatov, D.I. Chukov, S.G. Nematulloev, L.K. Olifirov. The influence of fluorinated MWCNT distribution quality on the mechanical properties of the bulk oriented UHMWPE-based composites // Results in Physics 7 (2017) 1044–1045

  23. D. Yu. Zalepugina, A. V. Maksimkin, M. V. Kiselevsky, N. A. Tilkunova, N. Yu. Anisimova, I. V. Chernysheva, F. S. Senatov, and M. I. Vlasov. Sterilization of a Porous Ultrahigh-Molecular-Weight Polyethylene in Supercritical Freons // Russian Journal of Physical Chemistry B 10(8) (2016) 1264-1268.

  24. D.I. Chukov, A.P. Kharitonov, V.V. Tcherdyntsev, D.D. Zherebtsov, A.V. Maksimkin. Structure and mechanical properties of self-reinforced ultra-high molecular weight polyethylene // JOURNAL OF COMPOSITE MATERIALS

  25. D. Yu. Zalepugin, A. V. Maksimkin, F. S. Senatov, N. A. Tilkunova, I. V. Chernyshova, M. I. Vlasov. Formation of porous ultrahigh molecular weight polyethylene using subcritical water // Mendeleev Commun., 2017, 27, 527–528

  26. A.V. Maksimkina, V.D. Danilovb, F.S. Senatov, L.K. Olifirov, S.D. Kaloshkin. Wear performance of bulk oriented nanocomposites UHMWPE/FMWCNT and metal-polymer composite sliding bearings // Wear 392–393 (2017) 167–173.

  27. D. Yu. Zalepugin, A. V. Maksimkin, M. V. Kiselevsky, N. A. Tilkunova, N. Yu. Anisimovab, I. V. Chernyshova, T. S. Spirina, F. S. Senatov, M. I. Vlasov. Impregnation of Ultra-High-Density Polyethylene with Unsymmetrical Disulfides in Subcritical Freon Media // Russian Journal of Physical Chemistry B, 2017, Vol. 11, No. 7, pp. 1–7.

  28. D. Yu. Zalepugina, A. V. Maksimkin, M. V. Kiselevsky, N. A. Tilkunovaa, N. Yu. Anisimovab, I. V. Chernyshovaa, T. S. Spirinac, F. S. Senatovb, M. I. Vlasov. Impregnation of Ultrahigh-Molecular-Weight Polyethylene with Amoxicillin in Subcritical Freon R22 Media // Russian Journal of Physical Chemistry B, 2017, Vol. 11, No. 8, pp. 1–8

  29. A. V. Maksimkin, S. G. Nematulloev, D. I. Chukov, V. D. Danilov, F. S. Senatov. Bulk Oriented UHMWPE/FMWCNT Films for Tribological Applications // Polymers 2017, 9, 629; doi:10.3390/polym9110629

  30. F.S. Senatov, K.V. Niaza, A.I. Salimon, A.V. Maksimkin, S.D. Kaloshkin. Architected UHMWPE simulating trabecular bone tissue // Materials Today Communications 14 (2018) 124–127.

  31. F. S. Senatov, S. D. Kaloshkin, V. V. Tcherdyntsev, and D. V. Kuznetsov. Physicomechanical Properties of a Composite Material Based on Ultrahigh_Molecular_Weight Polyethylene Filled with Ceramic Particles // Russian Metallurgy (Metally), Vol. 2012, No. 4, pp. 344–349

  32. Senatov F.S., Gorshenkov M.V., Kaloshkin S.D., Tcherdyntsev V.V., Anisimova N.Yu.,Kopylov A.N., Kiselevsky M.V. Biocompatible polymer composites based on ultrahigh molecular weight polyethylene perspective for cartilage defects replacement / Journal of Alloys and Compounds, 586 (2014) S544–S547 dx.doi.org/10.1016/j.jallcom.2012.10.014

  33. F.S. Senatov, M.V. Gorshenkov, V.V. Tcherdyntsev, S.D. Kaloshkin, V.A. Sudarchikov. Fractographic analysis of composites based on ultra high molecular weight polyethylene // Composites Part B, 56 (2014) 869–875

  34. F.S. Senatov, A.A. Baranov, D.S. Muratov, M.V. Gorshenkov, S.D. Kaloshkin, V.V.Tcherdyntsev. Microstructure and properties of composite materials based on UHMWPE after mechanical activation // Journal of Alloys and Compounds (2014), 615 S1, pp. 573-577

  35. Ronja Scholz, Marina Knyazeva, Dario Porchetta, Nils Wegner, Fedor Senatov, Alexey Salimon, Sergey Kaloshkin, Frank Walther, Development of biomimetic in vitro fatigue assessment for UHMWPE implant materials, Journal of the Mechanical Behavior of Biomedical Materials, Volume 85, September 2018, Pages 94-101

Эпоксидные смолы
  1. A.P. Kharitonov, G.V. Simbirtseva, A.G. Tkacher, A.N. Blohin, T.P. Dyachkova, A.V. Maksimkin, D.I. Chukov. Reinforcement of epoxy resin composites with fluorinated carbon nanotubes // Composites Science and Technology. – 2015. - №107. – P.162-168.

  2. A.P. Kharitonov, A.G. Tkachev, A.N. Blohin, T.P. Dyachkova, D.E. Kobzev, A.V. Maksimkin, A.S. Mostovoy, L.N. Alekseiko. Reinforcement of Bisphenol-F epoxy resin composites with fluorinated carbon nanotubes // Composites Science and Technology, 134 (2016) 161-167.

3D-печать биорезорбируемых имплантатов с памятью формы
Наноматериалы
  1. S.I. Senatova, A.R. Mandal, F.S. Senatov, N. Yu Anisimova, S.E. Kondakov, P.K. Samanta and D.V. Kuznetsov. Optical Properties of Stabilized ZnO Nanoparticles, Perspective for UV-Protection in Sunscreens / Current Nanoscience, 2015, Vol. 11, No. 3, 354-359

  2. Senatova S.I., Senatov F.S., Kuznetsov D.V., Stepashkin A.A., Issi J.P. Effect of UV-radiation on structure and properties of PP nanocomposites / Journal of Alloys and Compounds, Volume 707, 15 June 2017, Pages 304–309

  3. Сенатов Ф.С., Кузнецов Д.В., Калошкин С.Д., Чердынцев В.В. Получение нанопорошков оксидов металлов из солей методом механохимического синтеза // Химия в интересах устойчивого развития. 2009. № 6. С. 641-646.

  4. Чердынцев В.В., Сенатов Ф.С., Калошкин С.Д., Кузнецов Д.В. Механохимический синтез ультрадисперсных порошков оксидов марганца и цинка // Материаловедение. 2010. №3. С.19-24

  5. V. V. Tcherdyntsev, F. S. Senatov, S. D. Kaloshkin, and D. V. Kuznetsov. Mechanochemical Synthesis of Ultradispersed Powders of Manganese and Zinc Oxides // Inorganic Materials: Applied Research, 2011, Vol. 2, No. 1, pp. 5–9

3D-печать ПЭЭК/углеволокно
  1. А.А. Stepashkin, D.I. Chukov, F.S. Senatov, A.I. Salimon, A.M. Korsunsky, S.D. Kaloshkin, 3D-printed PEEK-Carbon Fiber (CF) composites: Structure and thermal properties / Composites Science and Technology, 2018, https://doi.org/10.1016/j.compscitech.2018.05.032.

  1. Yi-Ru Chen, Jui-Hung Chang, Kai-Chiang Yang, Fedor Svyatoslavovich Senatov, Chang-Chin Wu, Mong-Hsun Tsai. The influence of vancomycin on extracellular matrix and pro-inflammatory cytokine expressions to human articular chondrocytes / Process Biochemistry Volume 65, February 2018, Pages 178-185

  2. Kiselevsky M.V., Anisimova N.Y., Dolzhikova Y.I., Vlasenko R.Y., Senatov F.S., Karaulov A.V. ROLE OF MESENCHYMAL MULTIPOTENT STROMAL CELLS IN REMODELING OF BONE DEFECTS. Medical Immunology (Russia). 2018;20(4):515-522. (In Russ.) https://doi.org/10.15789/1563-0625-2018-4-515-522

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