Лук`янчук Ігор Анатолійович

Лук`янчук Ігор Анатолійович – професор кафедри будівельних матеріалів, доктор фізико-математичних наук, доцент.

ORCID – https://orcid.org/0000-0002-0077-962X;                                        Web of Science – ResearcherID: C-4206-2008;                                              Google Scholar – Лук’янчук Ігор;

тел.: (044) 245-48-31, внутр. 1-15, кімната 257.

Освіта:

1986 р. Московський фізико-технічний інститут; спеціальність Автоматика і електроніка, кваліфикація інженер-фізик.

2003 р. – доктор фізико-математичних наук; Інститут теоретичної фізики им. Ландау; спеціальність Теоретична і математична фізика,01.04.02.

З 2001 р. – професор Університету Жуля Верна (UPJV), Ам’єн, Франція, з 2001 року.

Перелік навчальних дисциплін:

  1. Будівельне матеріалознавство

Консультант атестаційних робіт магістрів та дипломного проектування бакалаврів за спеціальністю 192 «Будівництво та цивільна інженерія».

Напрями наукової діяльності:

Ferroelectric Materials; Tunnel Junctions; Domain Walls; Barium Strontium Titanate; Ferroelectric Materials; Dielectric Properties, Armchair; Zigzag; Carbon Nanotubes

ПЕРЕЛІК ПУБЛІКАЦІЙ

д.ф-м.н., професор Лук’янчук І.А. з 2015 по 2023 р.р.

2023 рік

ПУБЛІКАЦІЇ

СТАТТІ

Kondovych, S.Pavlenko, M.Tikhonov, Y.Razumnaya, A.Lukyanchuk, I. Vortex states in a PbTiO3 ferroelectric cylinder. SciPost Physics. 2023, 14(3), 056 (Публікація у науково-метричних базах даних) (Scopus)

Ihyadn, A.Merselmiz, S.Mezzane, D.Luk’yanchuk, I.A., El Marssi, M. Dielectric and energy storage properties of Ba0.85Ca0.15Zr0.1Ti0.90O3 ceramics with BaO–Na2O–Nb2O5–WO3–P2O5 glass addition. Journal of Materials Science: Materials in Electronicsthis link is disabled. 2023, 34(12), 1051 (Публікація у науково-метричних базах даних) (Scopus)

Razumnaya, A.G.Tikhonov, Y.A.Vinokur, V.M.Lukyanchuk, I.A. Ferroelectric topologically configurable multilevel logic unit. Neuromorphic Computing and Engineering. 2023, 3(2), 024003 (Публікація у науково-метричних базах даних) (Scopus)

Hadouch, Y.Mezzane, D.Amjoud, M.Lukyanchuk, I., El Marssi, M. Domain wall saddle point morphology in ferroelectric triglycine sulfate.  ACS Applied Nano Materials. 2023, 6(12), 10236–10245 (Scopus)

 Lakouader, A.Hadouch, Y.Mezzane, D.Luk’yanchuk, I.A.El Marssi, M. Impact of polymeric precursor and auto-combustion on the structural, microstructural, magnetic, and magn  etocaloric properties of La0.8Sr0.2MnO3. Journal of Magnetism and Magnetic Materials. 2023, 586, 171225 (Scopus)

Hadouch, Y.Mezzane, D.Amjoud, M.Lukyanchuk, I.El Marssi, M. Multiferroic CoFe2O4-Ba0.95Ca0.05Ti0.89Sn0.11O3 Core-Shell Nanofibers for Magnetic Field Sensor Applications. ACS Applied Nano Materials. 2023, 6(12), 10236–10245 (Scopus)

2022

  1. Merselmiz, S. Hanani, Z. Mezzane, D., Razumnaya, C, Amjoud, M., Hajji, L., Terenchuk, S., Rožič, B., Lukyanchuk, I.A., Kutnjak, Z. Thermal-stability of the enhanced piezoelectric, energy storage and electrocaloric properties of a lead-free BCZT ceramic Corresponding Luk’yanchuk, I.A., LPMC, University of Picardy Jules Verne, Amiens, France Department of Building Materials, Kyiv National University of Construction and Architecture, Kyiv, Ukraine RSC Advances, Volume 11, Issue 16, 22 February 2021, Pages 9459-9468 (Scopus) https://pubs.rsc.org/en/content/articlelanding/2021/ra/d0ra09707a#:~:text=The%20BCZT%20ceramic%20demonstrated%20excellent,by%20using%20the%20Maxwell%20relation
  2. Khardazi, S., Zaitouni, H., Belkhadir, S., Mezzane, D., Amjoud, M., Gagou, Y., Asbani, B., Lukyanchuk, I., Terenchuk, S. Improvement of the electrocaloric effect and energy storage perfo-rmances in Pb-free ferroelectric Ba0.9Sr0.1Ti0.9Sn0.1O3 ceramic near room temperature (2022) Journal of Solid State Chemistry, 311, art. no.123112.

2021

  1. Zouhair Hanani, Ilyasse Izanzar, M’barek Amjoud, Daoud Mezzane, Mohammed Lahcini, Hana Uršič, Uroš Prah, Ismael Saadoune, Mimoun El Marssi, Igor A Luk’yanchuk, Zdravko Kutnjak, Mohamed Gouné Lead-free nanocomposite piezoelectric nanogenerator film for biomechanical energy harvesting Nano Energy 81, 105661 (2021)
  2. 2. S.Belkhadir, S. Khardazi, D. Mezzane, M. Amjoud, V. Laguta, I. Raevski, K. Pushkarova, I. Lukyanchuk, M. El. Marssi. Effect of Sn on the energy storage performance and electric conduction mechanisms of BCZT ceramic. Material today. Proceeding on May 27, 2021, https://doi.org/10.1016/j.matpr.2021.05.517 (Scopus)
  3. Linnik E.D., Lukyanchuk I.A., Mikheykin A.S., Ragulya A.V., Gorshunov B.P., Alyyabyeva L.N., Zhukov S.S., Mezzane D., Razumnaya A.G. Crystal Structure and the Spectral Response of the Ba-Doped SrTiO3 Incipient Ferroelectrics. (2021) Physica Status Solidi (B) Basic Research. 258 (7) стаття № 2100010 https://www.scopus.com/record/display.uri?eid=2-s2.0-85105187967&origin=resultslist&sort=plf-f
  4. Merselmiz S., Hanani Z., Mezzane D., Razumnaya A.G., Amjoud M., Hajji L., Terenchuk S., Rozie B., Lukyanchuk I.A., Kutnjak Z. Thermal-stability of the enhanced piezoelectric, energy storage and electrocaloric properties of a lead-free BCZT ceramic (2021) RSC Advances. 11 (16) pp. 9459-9468
  5. Linnik E.D., Mikheykin A.S., Rubi D.C., Shirokov V.B., Mezzane D., Kondovych S.V., Lukyanchuk I.A., Razumnaya A.G. Raman response of quantum cristal ferroelectric pb-doped srtio3. (2021) Crystals. 2021, 11(12), 1469; https://doi.org/10.3390/cryst11121469

2020

  1. Luk’yanchuk, I., Tikhonov, Y., Razumnaya, A., Vinokur, V.M. Hopfions emerge in ferroelectrics. Nature Communications, Volume 11, Issue 1, 2020, Номер статьи 2433. (Scopus)
  2. Luk’yanchuk I., Tikhonov Y., Razumnaya A., Vinokur V.M. Hopfions emerge in ferroelectrics. Nature communications. Том 11, Номер1, Стр.1-7.
  3. Levashenko, V., Lukyanchuk, I., Zaitseva, E., Kvassay, M. Rabcan, J. Rusnak, P.Development of Programmable Logic Array for Multiple-Valued Logic Functions. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, Volume 39, Issue 12, 2020, P. 4854-4866. (Scopus)
  4. Tikhonov, Y., Kondovych, S., Mangeri, J., Pavlenko, M., Baudry, L., Sené, A., Galda, A., Nakhmanson, S., Heinonen, O., Razumnaya, A., Luk’yanchuk, I., Vinokur, V.M. Controllable skyrmion chirality in ferroelectrics. Scientific Reports, V. 10, Issue 1, 2020, Номер статьи 8657. (Scopus)
  5. Bak, O., Holstad, T.S., Tan, Y., Lu, H., Evans, D.M., Hunnestad, K.A., Wang, B., McConville, J.P.V., Becker, P., Bohatý, L., Lukyanchuk, I. Observation of Unconventional Dynamics of Domain Walls in Uniaxial Ferroelectric Lead Germanate. Advanced Functional Materials, Volume 30, Issue 21, 2020, Номер статьи 2000284. (Scopus)
  6. Levashenko V., Lukyanchuk I., Zaitseva E., Kvassay M., Rabcan Jan, Patrik Rusnak. Development of Programmable Logic Array for Multiple-Valued Logic Functions. IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems. Том 39, Номер 12, Страницы 4854-4866.
  7. Zaitseva, E., Levashenko, V., Lukyanchuk, I., Rabcan, J., Kvassay, M., Rusnak, P.Application of generalized reed–muller expression for development of non-binary circuits. Electronics (Switzerland), Volume 9, Issue 1, 2020, Номер статьи 12. (Scopus)

2019

  1. Luk’yanchuk, I., Tikhonov, Y., Sené, A., Razumnaya, A., Vinokur, V.M.Harnessing ferroelectric domains for negative capacitance.Communications Physics. Volume 2, Issue 1, 2019, Номер статьи 22.Начало формы (Scopus)
  2. Zaitseva, E., Levashenko, V., Lukyanchuk, I., Kvassay, M., Rabcan, J., Rusnak, P.Application of Generalised Reed-Muller Expansion in Development of Programmable Logic Array. Proceedings of the 2019 10th IEEE International Conference on Intelligent Data Acquisition and Advanced Computing Systems: Technology and Applications, IDAACS 2019, Volume 2, 2019, Номер статьи 8924457, P. 769-774. (Scopus)
  3. Forgac, A., Lukyanchuk, I.Конец формыNew algorithm for Multi-Valued Decision Diagram construction. Proceedings of the International Conference on Information and Digital Technologies 2019, IDT 2019, Номер статьи 8813405, P. 142-148. (Scopus)
  4. Forgac, I. Lukyanchuk, New algorithm for Multi-Valued Decision Diagram construction. 2019, International Conference on Information and Digital Technologies (IDT). 142-148.
  5. Jorge Íñiguez, Pavlo Zubko, Igor Luk’yanchuk, Andrés Cano. Ferroelectric negative capacitance. Nature Reviews Materials, 2019, Том 4, Номер 4, С. 243-256.
  6. Lukyanchuk, I.Zaitseva, E.Levashenko, V.Razumnaya, A.Ferroelectric multiple-valued logic units. Ferroelectrics, 2019, 543(1), стр. 213–221. (Scopus)
  7. Forgac, A.Rabcan, J.Zaitseva, E.Lukyanchuk, I.Construction of the structure function of multi-state system based on incompletely specified data. Advances in Intelligent Systems and Computing, 2019, 761, стр. 184–194. (Scopus)

2018

  1. Saroka, V.A., Lukyanchuk, I., Portnoi, M.E.Multilayer phosphorene quantum dots in an electric field: Energy levels and optical absorption. Journal of Applied PhysicsVolume 124, Issue 12, 28, 2018, Номер статьи 124303. (Scopus)
  2. Lukyanchuk, A. Sené, V. M. Vinokur. Electrodynamics of ferroelectric films with negative capacitance, Журнал Physical Review B, Том 98. 2018.

2017

  1. Saroka, V.A., Lukyanchuk, I., Portnoi, M.E., Abdelsalam, H.Electro-optical properties of phosphorene quantum dots. Physical Review BVolume 96, Issue 8, 25 August 2017, Номер статьи 085436. (Scopus)
  2. Baudry, L., Lukyanchuk, I., Vinokur, V.M.Ferroelectric symmetry-protected multibit memory cell. Scientific Reports, Volume 7, 2017, Номер статьи 42196. (Scopus)
  3. Laurent Baudry, Igor Lukyanchuk, Valerii M Vinokur. Ferroelectric symmetry-protected multibit memory cell. Scientific reports, Nature Publishing Group, 2017/2/8.

2016

  1. Abdelsalam, H., Talaat, M.H., Lukyanchuk, I., Portnoi, M.E., Saroka, V.A. Electro-absorption of silicene and bilayer graphene quantum dots. Journal of Applied Physics, Volume 120, Issue 1, 2016, Номер статьи 014304Начало формы. (Scopus)
  2. Pavlo Zubko, Jacek C Wojdeł, Marios Hadjimichael, Stéphanie Fernandez-Pena, Anaïs Sené, Igor Luk’yanchuk, Jean-Marc Triscone, Jorge Íñiguez. Negative capacitance in multidomain ferroelectric superlattices. Nature Publishing Group, Том 534, Номер 7608, С. 524-528.

2015

  1. Abdelsalam, H., Espinosa-Ortega, T., Lukyanchuk, I. Tuning of zero energy states in quantum dots of Silicene and bilayer graphene by electric field Superlattices and Microstructures, Volume 87, 17 March 2015, Pages 137-142. (Scopus)
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