Конференції
  1. Головна
  2. Структура
  3. Фізико-хімія і технології наноструктурних і функціональних матеріалів
  4. Сартинська Лiна Людвигiвна

Сартинська Лiна Людвигiвна


Наукові інтереси

  • Синтез та характеристика нанорозмірних порошкових матеріалів (нанотрубок, нановолокон, нанодротів) отриманих в оптичній печі без каталізаторів.
  • Спеціальний інтерес включає розробку високо емісійних наноструктурних матеріалів для перетворювачів сонячної енергії в електричну.
  • Оптимізація методів отримання композиційних електрохімічних покриттів з додаванням нанодисперсних керамічних порошків.
  • Кореляція між механічними властивостями і мікроструктурами.
  • Вплив складу зернограничної фази на властивості кераміки.
  • Дослідження електрокаталітичної активності електродів на основі нанорозмірних порошкових матеріалів (нанотрубок, нановолокон, нанодротів) BN і BN - C отриманих в оптичній печі без каталізаторів.
  • Вивчення та оцінка нанорозмірних порошків отриманих плазмохімічним синтезом.
  • Поведінка кераміки при спіканні.
  • Поверхнева модифікація гарячепресованої кераміки з дією індукційного нагріву.
  • Вплив фазового складу висхідних нанорозмірних порошків на механічні властивості і фазовий склад нітридних гарячепресованих керамічних матеріалів.
  • Вплив процесу змішування на структуру, фазовий склад і властивості керамічних матеріалів
  • Вплив додаткової термічної обробки на механічні властивості гарячепресованих матеріалів на основі нанорозмірних порошків нітридів кремнію, титану, алюмінію, оксидів алюмінію і ітрію в різних співвідношеннях.
  • Перевірка зносостійкості керамічних матеріалів.
  • Синтез муліту з попелу та алюмінію.

Наукові відзнаки

Нагороди та премії:
1992 - Нагорода в конкурсі молодих вчених України.
Патенти, авторські свідоцтва:
1.Ghesin G.G., Osipova I.I., May M.M., et all. Ceramic instrumental material. A.S. No1460919, 20.04.87.
2.Gnesin G.G., Osipova I.I., Miller T.N. et al. Processing of ceramic materials based on nitride. A.S. No1522705, 2.07.87.
3.Pokryshko G.A., Drobot O.S., Pidgaychuk S.Ya., Yavors’ka N.M., Sartіns’ka L.L. Compound for obtaining of composite electrolytic coatings based on nickel with additions of nanosized nitrides. Patent application 17.09.07. Favourable decision № 200710329. 26.11.07. (in Ukrainian).

Біографія

Освіта:
1992 - К.т.н. Інститут проблем матеріалознавства ім. І.М.Францевича, Національної Академії Наук України, відділ високотемпературих матеріалів і функціональної.кераміки. Дисертація "Розробка інструментальних керамічних матеріалів на основі нанодисперсних порошків тугоплавких нітридів" (диплом по спеціальності «Порошкова металургія і композиційні матеріали»). Керівник: Професор. Г.Г.Гнесін.
1978 – Київський Національний Університет ім..Т.Г.Шевченка, диплом по спеціальності «загальна фізика».
Зайнятість:
1984 – по т.ч. Інститут проблем матеріалознавства ім. І.М.Францевича, Національної Академії Наук України, відділ високотемпературих матеріалів і функціональної.кераміки (1984-2001) та відділ фізичного матеріалознавства і високотемпературних сполук (2001-т.ч.). Посада: ст..н.с..
Короткострокові візити:
2002 - Стипендія на 2 місяці наукового фонду Японії в Технологічний Університет Тойохаші, Японія. Група Професора. M.Сакаї.
2001 - Стипендія NATO на 5 місяців, департамент матеріалознавства, Центру Дослідження Матеріалів, Нового Лісабонського Університету, Лісабон, Португалія. Група Професора. Р.Монтейро.
1999 - Стипендія на 3 місяці Королівського Світського товариства, Інститут Дослідження Матеріалів, Лідського Університету, Лідс, Великобританія. Група Професора. Ф.Райлі.
Участь у проектах:
2002-2004 - спільний Німецько – Український проект “Зміни у тонких магнітних плівках під дією лазера”, DLR, Німеччина.
2006-2008 - проект 4133 “ Розробка наноструктурних матеріалів з високими емісійними характеристиками для перетворювачів сонячної енергії в електричну” фінансова підтримка УНТЦ-НАНУ.

Публікації

1. Lina Sartinska. Surface-Driven Electrostatic, Luminescent, and Paramagnetic Features of Freshly Synthesized BN Nanopowders Under Concentrated Light. Vacuum, 10 November 2025, 114898. DOI: https://doi.org/10.1016/j.vacuum.2025.114898 https://www.sciencedirect.com/science/article/abs/pii/S0042207X25008887 

2. Lina Sartinska. Properties of BN resulting from incomplete synthesis. Book of abstracts. Int. Conf. «HighMatTech», Oct. 2025 г., Kyiv, Ukraine, P. 157.

3. Lina Sartinska, Kostyantyn Korotkov, Olena Olifan, Vitalii Karpyna, Lyudmyila Fiyalka, Larysa Petrosian, Arsenii Ievtushenko. Effect of surface on tuning the properties of platelet-like h-BN nanopowder via oxidation. Book of abstracts. Int. Conf. «HighMatTech”, Oct. 2025 г., Kyiv, Ukraine, P. 160.

4. Л. Л. Сартинська. Cпосіб отримання ендоедральних фулереноподібних порошків на основі нітриду бору. Patent на винахід. № 129966 від 24.09.2025. L. L. Sartynska. A method for producing endohedral fullerene-like powders based on boron nitride. Patent for invention. No. 129966 dated 24.09.2025.

5. Lina Sartinska. Surface Chemistry Effects on Photoluminescence, Paramagnetism, and Electrostatic Behavior of Nanopowders. Program and Book of Abstracts. 26 ANNUAL CONFERENCE ON MATERIAL SCIENCE "YUCOMAT 2025". September 1 - 5, 2025, Herceg Novi, Montenegro. P. 137. https://mrs-serbia.org.rs/images/2025/YUCOMAT_2025_BoA.pdf.

6. L. Sartinska. Effect of composition and incomplete synthesis reactions of BN nanopowders on their properties. Book of abstracts Ukrainian conference with international participation "CHEMISTRY, PHYSICS AND TECHNOLOGY OF SURFACE" dedicated to the 95th birthday of Oleksii Chuiko, Academician of NAS of Ukraine, May 28-29, 2025, Kyiv, Ukraine. P. 186. https://drive.google.com/file/d/1kS_ZoxnrTez-yF9xru-4_QKgAE78CDP9/view.

7. L. L. Sartinska, Formation of Layered Structure in Ceramics Based on Alumina Nanopowder under the Effect of Induction Heating, Powders 2025, 4(3), 18, 1-12. https://doi.org/10.3390/powders4030018

8. Lina Sartinska, Vladimir Trachevsky, Igor Vorona. IMPORTANCE OF THE SURFACE FOR THE MANIFESTATION PROPERTIES OF NANOPOWDERS, Book of abstracts XX INTERNATIONAL SCIENTIFIC CONFERENCE ELECTRONICS AND APPLIED PHYSICS, October 22-25, 2024, Kyiv, Ukraine. P. 67 – 68. http://www.aphys.knu.ua/index.php/infoparticipants.

9. Сартинська Л.Л., ЕЛЕКТРОМАГНІТНІ ВЛАСТИВОСТІ КЕРАМІЧНИХ НАНОПОРОШКІВ, Book of abstracts The VIII International Scientific and Practical Conference «PHYSICS AND CHEMISTRY OF THE SOLID STATE: STATUS, ACHIEVEMENTS AND PROSPECTS» 18.10.2024 - 19.10.2024, Lutsk, Ukraine. P. 149-151. http://www.materials.kiev.ua/events/info_physchem_2024_eng.pdf

10. Lina Sartinska, Vladimir Trachevsky, Igor Vorona. EPR SPECTROSCOPIC STUDIES OF HEXAGONAL BORON NITRIDE. Book of abstracts 7th Int. Conf. “Nanotechnology”, Oct. 7-11, 2024, Tbilisi, Georgia, pp. 143-144. https://nano2024.gtu.ge/

11. L. L. Sartinska, “Effect of Induction Heating on Surface Properties of Hot-Pressed Ceramics Based on Nanopowders Si 3 N 4 and TiN,” Powders 2023, 2(4), 697-708; https://doi.org/10.3390/powders2040043.

12. Л. Л. Сартинська, C. О. Остапенко, A. А. Рогозинський, Г. О. Фролов. Спосіб одержання композиційних фулереноподібних порошків на основі нітриду бору із наночастинками міді. Патент на корисну модель № 151573 від 17.08.2022. L. L. Sartinska, C. O. Ostapenko, A. A. Rogozynsky, G. O. Frolov. Method of obtaining composite fullerene-like powders based on boron nitride with copper nanoparticles. Patent of Ukraine for a utility model № 151573, 17.08.2022.

13. Sartinska, L.; Kasumov, A.; Koval, A.; Frolov, G. Properties of Composite Powder Based on Boron Nitride Prepared under Concentrated Light. Condens. Matter 2022, 7, 42. https://doi.org/10.3390/condmat7020042.

14. Lina Sartinska, Yevgen Voynich, Tarik Eren, Esra Altay, Oleksandr Koval, Izabella Timofeeva, Anatoliy Kasumov, Gennadiy Frolov, Cesarius Jastrebski, Vitaly Tinkov. Synthesis and characterization of boron nitride powders produced under concentrated light. Materials science. arXiv:2110.15434 [cond-mat.mtrl-sci]. Submitted on 28 Oct 2021. DOI: https://doi.org/10.13140/RG.2.2.12773.73448.

15. Lina Sartinska. Composite bubble structures based on boron nitride and other compounds formed under concentrated light in flow of nitrogen from boron and inactive metal powders. Book of abstract 6th Int. Conf. “Nanotechnology” in memory of Alex Gerasimov, Oct., 4-7, 2021, Tbilisi, Georgia, P. 97.

16. L. Sartinska, A. Efimov. Formation of Bubble Composites Based on Boron Nitride under Effect of Concentrated Light. Book of abstract, 11th Int. Conf. IEEE “Nanomaterials: Applications & Properties” (NAP-2021), Sept., 05–11, 2021, Odessa, Ukraine, P. NSS-A-10.

17. M.M. Nishchenko, M A Shevchenko, E A Tsapko, A A Frolov, G A Frolov, L. L. Sartinska, A. I. Blanovsky. Hybrid System for Solar Energy Conversion with Nano-Structured Electrodes. arXiv:2012.14473v1 [cond-mat.mtrl-sci] Submitted on 28 Dec 2020].

18. Rudko, Galina Yu, Lina L. Sartinska, Oksana F. Isaieva, Evgen G. Gule, Tarik Eren, and Esra Altay, “Light-Emitting Properties of Bn Synthesized by Different Techniques”, Semiconductor Physics, Quantum Electronics and Optoelectronics, 23.2 (2020), 193–200. DOI: https://doi.org/10.15407/spqeo23.02.193.

19. Sartinska L.L., Eren T., Efimov A. Formation of Composite Structure Based on Boron Compounds and Indium Nitride under Concentrated Light in Flow of Nitrogen. Advances in Applied Ceramics” Adv. Appl. Ceram., vol. 118, no. 4, 2019. Manuscript DOI:https://doi.org/10.1080/17436753.2019.1574284

20. Lina Sartinska, Levan Chkhartishvili, Eugen Voynich, Tarik Eren, Gennadiy Frolov, Esra Altay, Ivane Murusidze, Otar Tsagareishvili, Domenti Gabunia, Nodar Maisuradze. Effect of concentrated light on morphology and vibrational properties of boron and tantalum mixtures. Heliyon 4 (2018) e00585. doi: 10.1016/j.heliyon.2018.e00585.

21. Keziban Huner, Kemal Ulutas, Huseyin Deligoz, Lina Sartinska, Tarik Eren. ROMP-based boron nitride composites. Journal of Applied Polymer Science August 2017, pp: 45658 DOI: https://doi.org/10.1002/app.45658

22. L.L. Sartinska, A.M. Kasumov, I.I. Timofeeva, А.Yu. Коval, E.V. Voynich, O. Kutsay, C. Jastrebski, N. Maisuradze, N.C. Danilenko, G.A. Frolov. Gradient and layered boron nitride formation under effect of concentrated light in a flow of nitrogen. European Chemical Bulletin 6(1):38•March 2017 DOI: https://doi.org/10.17628/ecb.2017.6.38-44.

23. L. Chkhartishvili, L. Sartinska, Ts. Ramishvili. Adsorption selectivity of boron nitride nanostructures designed for environmental protection. In: RSC Detection Sci. Ser. No. 9. Advanced Environmental Analysis: Applications of Nanomaterials (Eds. Ch. Hussain, B. Kharisov). 2017, Cambridge: Royal Soc. Chem., Ch. 8 – 167-192. http://pubs.rsc.org/en/content/ebook/978-1-78262-144-7#!divbookcontent

24. Lina L. Sartinska, Levan Chkhartishvili. Effect of Concentrated Light on Boron Nitride Nanostructures Formation. Springer Proceedings in Physics. Nanophysics, Nanophotonics, Surface Studies, and Applications. Selected Proceedings of the 3rd Int. Conf. Nanotechnology and Nanomaterials (NANO2015), Aug. 26-30, 2015, Lviv, Ukraine. (Eds. O. Fesenko, L. Yatsenko). Vol. 183. 2016, Ch. 10 – 117-130. ISBN: 978-3-319-30736-7 (Print) 978-3-319-30737-4 (Online)

25. L. L. Sartinska, Ye. V. Voinich, T. Eren, E. Altay, G. A. Frolov and Laszlo Kotai. Effect of moisture on the boron nitride formation from elements in a xenon high flux optical furnace, Eur. Chem. Bull., 2015, 4(3), 165-168.

26. L.L. Sartinska, V.S. Vorobets, G.A. Frolov, G.Ya. Kolbasov, C. Jastrebski, A.Yu. Koval, I.I. Timofeeva, S.V. Karpenko. Synthesis of BXNYCZ powder coating under concentrate light. Vacuum (Rapid communication), 116 (2015) 73-76. http://dx.doi.org/10.1016/j.vacuum.2015.02.029

27. L.L. Sartinska. Surface modification to test “gaseous model” for BN nanotubes formation under the concentrated light and its application for graphene. Superlattices and Microstructures, 85 (2015) 392–400. doi:https://doi.org/10.1016/j.spmi.2015.05.042 (http://www.sciencedirect.com/science/article/pii/S0749603615300215).

28. Lina Sartinska, Eugen Voynich, Tarik Eren, Gennadiy Frolov, Esra Altay, Levan Chkhartishvili, Ivane Murusidze, Otar Tsagareishvili, and Domenti Gabunia Tantalum-Dopants Related Localized Vibrations in β-Rhombohedral Boron. Abstracts of the 18th International Symposium on Boron, Borides and Related Materials, 31.08-5.09.2014, Honolulu, Hawai‘i, USA, p. 161.

29. L.L. Sartinska, Ye.V. Voinich, T. Eren, E. Altay, G.A. Frolov. Hydrogen and properties of boron nitride produced under effect of concentrated light heating. Abstracts of the 3rd Int. Conf. “Nanotechnologies”, 20 – 24.10.2014, Tbilisi, Georgia, P.100-101.

30. P. Styhlyak, M. Mytnyk, K. Moroz, L. Sartynska. Thermophysical properties of nanoepoxycomposites taking into account the filler composition. Scientific Journal of the Ternopol National Technical University, 1 (73) 2014, 85-93. ISSN 1727-7108.

31. L.L. Sartinskaya, Y.V. Voynich, G.A. Frolov, A.Y. Koval, A.F. Andreeva, A.M. Kasumov, I.I. Timofeeva. Properties of BN-nanostructures produced under effect of concentrated light radiation, Proc. “ Nanosystems, Nanomaterials, Nanotechnologies” № 2 (2014) ISSN: 1816-5230 (Print), 1816-5230 (Online, in Russian).

32. L.L. Sartinskaya, Y.V. Voynich, A.F. Andreeva, A.M. Kasumov, I.I. Timofeeva. A.Y. Koval, G.A. Frolov, T. Eren, E. Altai. Properties of boron nitride synthesized under the effect of concentrated light radiation. Nano Studies. - 2013. - 8. - C. 62-69. (in Russian).

33. N.E. Kornienko, L.L. Sartinskaya, A.M. Kutsay, C. Yastrebsky. Giant nonlinearity and presence of BN nanotubes together with diamond-like c-BN in dendritic nanostructures of boron nitride Proc. “Carbon nanoparticles in condensed media”. - 2013 - Minsk: A.V. Lykov Institute of Heat and Mass Transfer NAS of Belarus. - C.257-263. (in Russian).

34. L.L. Sartinskaya, Y.V. Voynich, G.A. Frolov, A.Y. Koval, A.F. Andreeva, A.M. Kasumov, I.I. Timofeeva. Effect of synthesis conditions on the morphology and properties of BN nanostructures. Book of abstract, 4th Int. Conf. High Mat Tech, 7-11 October 2013 - Kiev, Ukraine. - P. 27. (in Russian).

35. M. M. Nischenko, M. A. Shevchenko, E. A. Tsapko, G.A. Frolov, L.L. Sartinskaya, M. I. Danilenko. Cathodes with carbon nanotubes, which contain edge dislocations, for the emission conversion of solar energy into electric energy. Book of abstracts, VI Int. science conf. “Functional base of nanoelectronics” Ukraine, AR Crime, Alushta, 30.09-4.10.2013. - P.149. (in Russian).

36. E. Altay, Y. Voynich, Lina L. Sartinska, T. Eren. Preparation of polystyrene / methacryl fuctionalized boron nitride based composite // Book of abstracts, part 2. – 44 th World Chemistry Congress, Istanbul, Turkey, 2013. – P. 1564.Preparation

37. L.L. Sartinskaya, Y.V. Voynich, G.A. Frolov, A.Y. Koval, A.F. Andreeva, A.M. Kasumov, I.I. Timofeeva. Properties of BN nanostructures produced under effect of concentrated light radiation. Book of abstracts, IV Int. Sc. Conf. “Nanoscale systems: structure, properties, technologies” 19 - 22.11. 2013, Kyiv, Ukraine. (in Russian).

38. Sartinska Lina L., Voynich Yevgen V., Frolov Gennadiy O., Kornienko Mykola E. Properties of BN Nanostructures Synthesized under Effect of Concentrated Light Heating. Abstracts of Symposium on Nanostructered Materials NANO 2013, 21-22. 05. 2013. Centre of Microelectronics and Nanotechnology, Rzeszów University, Rzeszów, Poland, p.64.

39. Y. G. Gordienko, L. L. Sartinskaya. The thermal stability of boron nitride nanotubes Book of abs. IV Int. Sc. Conf. "Nanoscale systems: structure, properties, technologies" 19 - 20.11.2013, Kiev, Ukraine. (in Russian).

40. Kornienko M.E., Sartinskaya L.L., Kornienko A.M., Kutsay A.M. Giant nonlinearity and generated luminescence of boron nitride structures, Book of Abs., conf. dedicated to the 60th anniversary of the IPM NASU "Powder metallurgy: her today and tomorrow" PM-2012, 27-30.11.2012, Kyiv, Ukraine, P. 162. (in Russian)

41. Kornienko M.E., Sartinskaya L.L., Kutsay A.M, Yastrebsky C. Simultaneous demonstration of the properties of nanotubes BN and c-BN in the vibrational spectra of boron nitride structures Book of Abs., conf. dedicated to the 60th anniversary of the IPM NASU "Powder metallurgy: her today and tomorrow" PM-2012, 27-30.11.2012, Kyiv, Ukraine, P. 200. (in Russian)

42. Kornienko M.E., Sartinskaya L.L., Kutsay A.M, Yastrebsky C. Strong frequency shifts and changes in the intensities of the bands in the vibrational spectra of boron nitride. Proc. Int. Sc. conf. "Modern problems of Condensed Matter", Kiev 10 -13.10.2012; P.149. (in Russian)

43. Kornienko M.E., Sartinskaya L.L., Kornienko A.M., Kutsay A.M. Detection of luminescence and giant nonlinearity of nanotubes and hexagonal BN. Proc. Int. Sc. conf. "Modern problems of Condensed Matter", Kiev 10 -13.10.2012; P. 65-67. (in Russian)

44. Звіт про НДР «Розрoбка нових перспективних материалів для захисту від теплових та іонізуючих випромінювань на основі фосфатних композицій модифікованих мікро- та нанорозмірними волокнами» ДОГОВІР № М/ 360 -2012. Номер державної реєстрації 0112U006460

45. Kuzhir, P.P.; Maksimenko, S.A.; Lapko, K.N.; Lomonosov, V.A.; Ivashkevich, O.A.; Lesnikovich, A.I.; Sedyshev, P.V.; Shvetsov, V.N.; Kurilin, A.S.; Sartinska, L.; Silenko, P.; Frolov, G.; Solonin, Yu.; Bellucci, S. Boron Enriched Unfired Phosphate Ceramics as Neutron Protector. Nanoscience and Nanotechnology Letters, Volume 4, Number 11, November 2012 , pp. 1104-1109(6).

46. L. L. Sartinska. Effect of concentrated light on transformation of surface-modified boron nitride In Contents 2nd Int. Conf. Nanotechnologies, 2012, Tbilisi, Nekeri, c.145.

47. L.L. Sartinskaya, A.A. Frolov, A.F. Andreeva, Y.V. Voynich, A.M. Kasumov, G.A. Frolov, V.A. Tin'kov, V.V. Stonys. Optical and surface properties boron nitride compound produced in the optical furnace without a catalyst. Nano Studies, 2012, 5, P. 89-102. (in Russian).

48. Sartinskaya L.L., Voynich Y.V., Bloschanevich O.M., Frolov G.A., Koval A.Y., Danilenko M.I. Influence of synthesis conditions on the formation of new structures of boron nitride under the effect of concentrated light radiation . Book of Abs., 7th Int. Conf., AR Crimea, Katsively, 2012. P. 137. (in Russian).

49. Звіт про НДР за 2009 2011 рік. «Дослідження функціональних властивостей матеріалів і покриттів для теплозахисних систем ракетно-космічної техніки та високотемпературних технологій, розробка методик і обладнання для їх отримання, дослідження та переробки промислових відходів з використанням концентрованих джерел енергії» Номер державної реєстрації 0109U000568 Київ: ІПМ НАН України.2014, с. 295.

50. L.L. Sartinska, O.M. Bloschanevich, I.I. Timofeeva, M.M. Nishchenko, N.A. Shevchenko. Emission properties of cathodes based on B–N–C as a result of laser processing, Journal of Non-Crystalline Solids, 357 (2011) 1504–1507.

51. Sartinska L.L., Frolov A.A., Andreeva A.F., Kasumov А.М., Timofeeva I.I., Danilenko M.I. Catalyst-Free Synthesis and Characterization of Boron Nitride Whiskers and Nanotubes. Materials Letters, 65 (2011) 1791–1793.

52. Sartinska L.L. Catalyst-Free Synthesis of Nanotubes and Whiskers in an Optical Furnace and Gaseous Model for Their Formation and Growth. Acta Materialia. 59, V.11 (2011), P. 4395-4403.

53. Sartinska L.L., Synthesis and Sintering Strategies of Boron-Rich Solids. In book: Boron Rich Solids: Sensors, Ultra High Temperature Ceramics, Thermoelectrics, Armor. Series: NATO Science for Peace and Security. Series B: Physics and Biophysics, Orlovskaya, Nina; Lugovy, Mykola (Eds.). 2011, 303-319.

54. Sartinska L.L.Catalyst-free formation and growth of nanotubes and whiskers during heating in optical furnace. Nanosystems, Nanomaterials, Nanotechnologies 2011, т. 9, № 3, P. 675–689.

55. Sartinskaya L.L., Yastrebsky C. Raman spectroscopy BN and BN-C structures that are formed in an optical furnace without catalyst. Book of Abs., 6th Int. Conf., "Materials and coatings under extreme conditions: research, application, clean production technologies and recycling" MEE 2010, 20-24.09.2010, Big Yalta, Ponizovka, AR Crimea, Ukraine. P. 145. (in Russian).

56. Sartinskaya L.L. Formation and growth of nanotubes and whiskers during heating in the optical furnace without catalysts. Book of Abs., 2th Int. Conf., "Nanostructured Materials - 2010: Belarus-Russia-Ukraine" on 19-22.10.2010, Kiev, Ukraine. P. 48. (in Russian).

57. L.L.Sartinska, M.I.Danilenko, C. Jastrebski. Raman spectroscopy of bn and bxnycz structures formed in an optical furnace without catalysts. Digest of IPMS. “Modern problems of physical material science”, Kiev, Ukraine. 2010г.– P.160 – 172.

58. M. M. Krupa, A. N. Pogorily, L. L. Sartinska, Yu. V. Skirta, R. Zaharov. Formation of nanodots and change of characteristics of thin magnetic films under laser irradiation. Current Applied Physics, Volume 10, Issue 1, January 2010, Pages 294-298. doi: https://doi.org/10.1016/j.cap.2009.06.041.

59. L.L.Sartinska, V.V.Stonis, A.A.Frolov. Auger electron spectroscopy of boron nitride whiskers produced in optical furnace without catalysts. Digest of IPMS. “Modern problems of physical material science”, Kiev, Ukraine. 2009.– P.177 – 182.

60. Sartinska L.L., Tinkov V.A., Frolov A.A. Oxygen and structure transformations of h-bn in focal zone of an optical furnace. Digest of IPMS. “Modern problems of physical material science”, Kiev, Ukraine. 2009.– P.56 – 62.

61. L.L.Sartinska, V.V.Stonis, A.A.Frolov. Auger electron spectroscopy of boron nitride whiskers produced in optical furnace without catalysts. Book of abstracts. Int. Conf. «HighMatTech”, Oct. 2009 г. Kyiv, Ukraine, P. 478.

62. Sartinska L.L., Tinkov V.A., Frolov A.A. Oxygen and structure transformations of h-bn in focal zone of an optical furnace. Book of abstracts. Int. Conf. «HighMatTech», Oct. 2009 г., Kyiv, Ukraine, P. 472.

63. Myron Luchka, Lina Sartinskaya, Ganna Pokryshko, Vasyl Labunets, Igor Shabalin. Powder-electroplated metal-ceramic/ceramic coatings with nanostructured carbon, boron and boron nitride reinforcement. Book of abstracts. Micro et Nano Scientie Mare Magnum. XIV Int. Clay Conf., Castellaneta Marina – Italy, June 14-20, 2009, P. 89.

64. A.A.Frolov, L. L. Sartinska, A.Yu..Koval’, N.A.Danilenko, Application of the optical furnace for nanosized boron nitride production. Materials science of nanostructures (2008). – №2 – 4. – p. 115-120 (in Russian).

65. А.А. Фролов, Л.Л. Сартинская, А.Ю. Коваль, Н.И. Даниленко. Использование оптической печи для получения наноструктурного нитрида бора. Наноструктурное материаловедение, 2008, 2-4, стр. 115-120.

66. Sartinska L.L., Frolov A.A., Andreeva A.F., Kasumov A.M., Kobal A.Yu., Urubkov I.V.,Timofeeva I.I, Rud’ B.M Structure and optical properties of nanosized boron nitride obtained in optical furnace without catalysts. Collected scientific transactions. “Nanosistemi, nanomateriali, nanotehnologii”, 2008, 6, № 4, pages 1159-1165.

67. L.L.Sartinska, A.A.Frolov, A.Yu..Koval’, N.A.Danilenko, I.I.Timofeeva, B.M.Rud’, Transformation of Fine-grained Graphite Boron Nitride Induced by Concentrated Light Energy. Materials Chemistry and Physics 109 (2008) 20–25.

68. Sartinska L.L., Frolov A.A., Andreeva A.F., Kasumov А.М. , Urubkov I.V., Коval’ А.Yu., Timofeeva I.I., Rud’ B.M. Properties of Boron Nitride Produced in the Optical Furnace without Catalysts., Abstract Book 'WomenInNano'' Winter School, Kranjska Gora, Slovenia 7-9 February 2008, P.104 – 105.

69. Pokryshko G.A., Drobot O.S., Pidgaychuk S.Ya., Yavors’ka N.M., Sartyns’ka L.L. Compound for obtaining of composite electrolytic coatings based on nickel with additions of nanosized nitrides. Patent application 17.09.07. Favourable decision № 200710329. 26.11.07. (in Ukrainian).

70. L.L. Sartinska, S. Barchikovski, N. Wagenda, B.M. Rud’, I.I.Timofeeva. Laser Induced Modification of Surface Structures. Applied Surface Science, Volume 253, Issue 9, 28 February 2007, Pages 4295-4299.

71. L.L. Sartinska, G.A. Pokryshko, E.M. Zavarach, I.V. Urubkov, I.I. Timofeeva, B.M.Rud’. Composed electrochemical nickel coatings based on nanosized boron nitride. Digest of IPMS. “Modern problems of physical material science”, Kiev, Ukraine. 2007. P.167 – 172. (in Russian).

72. L.L. Sartinska, G.A. Pokryshko, E.M. Zavarach, I.V. Urubkov, I.I. Timofeeva, B.M.Rud’. Composed electrochemical coatings based on nanosized boron nitride. Int. Conf. «HighMatTech”, 15-19 Oct. 2007 г., Kyiv, Ukraine, P. 478. (in Russian).

73. Sartinska L.L., Frolov A.A., Andreeva A.F., Krysjuk E.Ju, Urubkov I.V.,Timofeeva I.I, Rud’ B.M. Structure and optical properties nanosized boron nitride produced in the optical furnace without catalysts. Int. Conf. “NANSYS 2007”, Nov. 2007, Kyiv, Ukraine, P. 169.

74. 21-23 L.L. Sartinska, L.L. Fedorenko, A.A. Frolov, I.I. Timofeeva, N.M. Yusupov, B.M.Rud’. Producing of boron nitride in nanostructure state, "Metal physics and newest technology. V.28, №6, 2006, P. 739.

75. L.L. Sartinska, A.A. Frolov, A.Yu. Koval’, N.I. Danilenko, I.I. Timofeeva, B.M.Rud’. Structure transformation of boron nitride under action of concentrated solar radiation. Proc. IV Int. Conf. Materials and coatings in extreme conditions: investigations, applications, ecological technologies and utilization of products. 18-22 Sept. 2006, Zhukovka, Big Yalta, Crimea, P. 181. (in Russian).

76. A.A. Frolov, E.R. Andrievskaya, L.L. Sartinskaya Peculiarity of physico-chemical interaction of concentrated solar radiation of the optical furnace and its application for solution of the materials science practical tasks. Int. Conf. “Modern materials science: achievements and problems” 26 -30 Sept. 2005. Kiev, Ukraine. P 174 – 175.

77. L.L. Sartinska, L.L. Fedorenko, A.A. Frolov, I.I. Timofeeva, B.M.Rud’. Nanostructure boron nitride fabrication. Int. Conf. “Modern materials science: achievements and problems” 26 -30 Sept. 2005. Kiev, Ukraine. P.729 – 730.

78. A.A.Frolov, L.L.Sartinska, A.Yu.Koval’, Set-up for obtaining of nanostructure boron nitride by evaporation of concentrated solar radiation and condensation on the cooling surface. Science & Development of Techno Biosphere of Arctic: Experience and Challenge Time. Proc. Int. Conf. 29 Nov.-1 Dec. 2005. Apatity, Russia, P.128-130. (in Russian).

79. L..L. Sartinska, L.L. Fedorenko, A.A. Frolov, I.I. Timofeeva, B.M.Rud’. Obtaining of nanostructure boron nitride. Digest of IPMS. Modern problems of physical material science, Kiev, Ukraine. 2005.– P.177 – 182.

80. M.M. Krupa, R.V. Zaharov, L.L. Sartinska, Yu.V. Skirta. Characteristic modification and nanodots formation in thin magnetic films by lasing. Digest of IPMS «El;ectron structure and properties of high-temperature compounds, alloys and metals», set «Physical materials science, structure and properties of materials», Kiev 2004, 163-167. (in Russian)

81. L.L. Sartinska, A.F. Andreeva, B.M.Rud’, V.M. Ageev. Changes in thin magnetic film under lasing. Final report. Project М/196-2003., 2004, № 01030008387. (in Russian)

82. Sartinska Lina L.; Monteiro, Regina. Synthesizing Mullite from fly ash and Alumina. Refractories for Industrials; 46th International Colloquium on Refractories, J. Stahl und Eisen, special, 2003, pp. 140-144.

83. Sartinska L.L. Grain Boundaries and Properties of Alumina Ceramics. Proc. 2nd Int. Conf. “Materials and Coatings for Extreme Performance:” 16-20 Sept., 2002, Katsiveli-town, Crimea, Ukraine, pp. 338-340.

84. L.L.Sartinska, G.G.Gnesin, I.I.Osipova, Properties of Ceramic Composites based on Si3N4-TiN. Proc.Int.conf.,”Science for Materials in the Frontiers of Centuries: Advantages and Challenges”, 4-8 November, 2002, Kyiv, Ukraine, pp. 529-531.

85. L.L.Sartinska, Microsructure and Properties of Ceramics Based on Alumina. NATO Advanced Worshop “Nanostructured Materials and Coatings for Biomedical and Sensor Application”, 4-8.08.2002, Kyiv, p.25.

86. A.F. Andreeva, O.K. Dvoinenko, R.V. Zaharov, V.Maer, M.M. Krupa, L.L. Sartinskaya, Effect of pulsed lasing on the surface topography of the iron films, obtained by magnetron deposition. Digest of IPMS «El;ectron structure and properties of high-temperature compounds, alloys and metals», set «Physical materials science, structure and properties of materials», Kiev 2002, 154-157.

87. Khoruzhaya V.G., Martsenyuk P.S., Meleshevitch K.A., Velikanova T.Ya., Sartinskaya L.L., Physico-chemical investigation of compounds interaction in the System Si-Al-O-N-Ti in the field Si3N4-AlN-Al2O3-SiO2-TiN-TiO2. 1.Subsystems: Si3N4-Al2O3, Si3N4-TiN and Al2O3-TiN of system Si-Al-O-N-Ti. Powder Metallurgy J., 7-8 (2001) 88-93.

88. L.L. Sartinska. Surface in ceramics after induction heating. Proceedings of the 4th International Conference on Electric Charges in Non-Conductive Materials, a special issue of Vide: science, technique et applications, Societe Francaise du Vide, Paris, 2001, pp. 289-292.

89. L.Sartinskaia, G.G.Gnesin, I.I.Osipova. Composite materials based on Si3N4-TiN. Proceedings of International conference "Advanced Ceramics for Third Millenium" under auspices of European Ceramic Society. Kiev, Ukraine, 2001.

90. L.L.Sartinskaia, F.L.Riley. Influence of the Composition and Condition of the Grain Boundary Phases on the Properties of Alumina Ceramics. Proceedings of XXXVII International Seminar "Actual problems of strength". Kiev, Ukraine, Jule 3-5, 2001.

91. Lina L.Sartinska, Factor influencing surface of hot-pressed ceramics. Trans. JWRI, Vol.30 (2001), Special Issue, pp.503-509.

92. L.L. Sartinska. Influence of Grain Boundaries on the Properties of Dense Alumina Ceramic. Proceedings of the 7th Conderence & Exhibition of the Ceramic Society, Key Engineering Materials Vols. 206-213, Brugge, Belgium (2001) 1141-1144. https://doi.org/10.4028/www.scientific.net/KEM.206-213.1141

93. Sartinska L.L. Surface Modification of Hot-Pressed Ceramics. J. Fuctional Materials 8, No.1 (2001) 179.

94. Lina L.Sartinska, The influence of the frequency of hot-pressing on the surface modification of produced ceramics. 3rd International Conference "High temperature capilarity", Kurashiki, Japan, 19-22.11.2000.

95. Lina L.Sartinska, Surface Modification of Hot-Pressed Ceramics. NATO ASI Conference Functional Gradient Materials and Surface Layers, Prepared by Fine Particle Technology", Kyiv, 2000.

96. T.Ya.Velikanova, P.S.Martsenyuk, K.A.Meleshevitch, V.G.Khoruzhaya, G.G.Gnesin, L.L.Sartinskaya, Phase Formation at Interaction of Si3N4 with AlN and TiN, International conference "Advanced Materials", Kyiv, 1999.

97. Osipova I.I., Koldaev N.V., Sartinskaia L.L. Mechanical properties of materials from ultradispersed nitride and oxide powders. Powder Metallurgy and Metal Ceramics, Vol 34, 9-10. 1995.

98. Gnesin G.G., Osipova I.I., Sartinskaia L.L. Wear resistance ceramic materials based on ultradispersed powder of refractory nitride. Latvijas Kimijas Zurnals, 1993, 1.

99. Osipova I.I., Sartinskaia L.L. Instrumental ceramics based on ultradispersed powders. Pabl. IPM, Kiev, 1993, No 7.

100. Osipova I.I., Kovalchenko A.M., Sartinskaia L.L. Optimization of the composition of nitridic ceramic tool material by tribotechnical tests. Powder metallurgy and Metal Ceramics, 1992, 4.

101. Osipova I.I., Sartinskaia L.L. Effect of processing factors on the structural heterogeneity of materials based on ultrafine nitride powders. Powder Metallurgy and Metal Ceramics, 1990, 1.

102. Gnesin G.G., Osipova I.I., Sartinskaia L.L. et all. Properties of materials based on ultradispersed nitride powders. Powder Metallurgy and Metal Ceramics, 1990, 8.

103. Gnesin G.G., Osipova I.I., Sartinskaia L.L. Peculiarities of application of cutting tool based on silicon nitride. In: Instrumental maintenance of automation system of mechanical processing. Region conference. Irkutsk, 1990.

104. Gnesin G.G., Osipova I.I., Sartinskaia L.L. et all. High temperature hardness materials based on refractory nitride. In: Construction and processing of product getting from non-metal materials. XII All-Union science-technical conference. (Obninsk), Moskva, 1990, part 2.

105. Osipova I.I., Sartinskaia L.L., Babiy O.I. et all. Structure peculiarities of materials based on ultradispersed powders of refractory nitride. In: Powder metallurgy and composite materials. Science-technical conference. Leningrad, 1990.

106. Gnesin G.G., Osipova I.I., Sartinskaia L.L. Strength of ceramic materials based on ultrahigh dispersed powders. In: Physico-Chemistry of ultrahigh system. 2 All-Union conference. (Yurmala), Riga, Pabl. In-te Nonorganic Chemistry, Latvia, 1989.

107. Osipova, I.I.; Sartinskaya, L.L.; Grigor’ev, O.N. Stabilization of properties of tool materials made of ultrafine powders. Phys. Mater. Sci. Phys. Chem. Princ. Dev. New Mater. 1989, 129–133.

108. Osipova I.I., Sartinskaia L.L. Processing conditions and the properties of materials from ultrahigh dispersed nitride powders. Powder metallurgy: XVI All-Union science-technical conference. Sverdlovsk, Pabl. Institute of metallurgy, 1989.

109. Gnesin G.G., Osipova I.I., Sartinskaia L.L. Annealing influence on the properties of silicon nitride instrumental materials based on ultrahigh dispersed powders. In: Materials based on refractory compounds. Kiev, IPM, 1989.

110. Sartinskaia L.L. Properties of instrumental ceramic materials from ultrahigh dispersed powders. In: New powder materials and technology in mechanical engineering. Kiev, IPM, 1988.

111. Osipova I.I., Grigor'ev O.N., Sartinskaia L.L. Hardness and fracture toughness of instrumental ceramic materials based on ultrahigh dispersed powders of refractory nitride. Hot pressing: VII All-Union science-technical conference. Novocherkassk: Pabl. NPI, 1987.

112. Ghesin G.G., Osipova I.I., May M.M. et all. Ceramic instrumental material. A.S. No1460919, 20.04.87.

113. Gnesin G.G., Osipova I.I., Miller T.N. et al. Processing of ceramic materials based on nitride. A.S. No1522705, 2.07.87.