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Igor Vrublevsky

Vrublevsky

Head of R&D Lab "Multifunctional metal oxide composite materials"

PhD, Associate Professor

☏  тел.: +375 17 293 89 40

🖂   vrublevsky@bsuir.edu.by

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FIELD OF EXPERTISE

  • Nanostructured anodic alumina films
  • Carbon bearing anodic alumina
  • Nanocomposite anodic alumina
  • Optical properties
  • Temperature sensors
  • Heating elements based on aluminum with porous anodic alumina layer
  • Solar collectors;
  • Thermal management in LED PCB
  • Algorithms and hardware and software systems for protecting speech information
  • Algorithms and software and hardware systems to protect information from leakage through an electromagnetic channel

 

EDUCATION

2001 – PhD in Engineering (specialty "Solid-State Electronics, Radio Electronic Components, Micro- and Nanoelectronics, Devices on Quantum Effects"), Belarusian State University of Informatics and Radioelectronics (BSUIR), Minsk, Belarus.

1983 – Engineer-Researcher (specialty “Solid-State Electronics, Radio Electronic Components, Micro- and Nanoelectronics, Devices on Quantum Effects”), BSUIR, Minsk, Belarus.

 

RESEARCH POSITIONS

2023 - present – head of the R&D Lab "Multifunctional metal oxide composite materials".

2019 - 2023 – head of the R&D Lab "Materials and components of electronics and superconducting equipment".

2016 - 2019 – Leading researcher at the R&D Lab "Materials and components of electronics and superconducting equipment".

2012 - 2016 – Senior Researcher, R&D Lab "Materials and components of electronics and superconducting equipment".

1990 - 2012 – Researcher, R&D Lab "Hybrid IC Technology".

1983 - 1990 – Junior Researcher, R&D Lab "Hybrid IC Technology".

 

TENURE TRACK FACULTY POSITION

2014 to the present – Associate Professor of the Department of Information Security of BSUIR (scientific supervision of students' theses and dissertations of undergraduates and graduate students)

2014 - 2016 – lecturing on the discipline "Fundamentals of Information Security".

 

PROFESSIONAL ACHIEVEMENTS

From 2019 to 2020, he led an international project on the synthesis of light-absorbing films with one of the world's largest manufacturers of consumer electronics and home appliances – LG Electronics Corporation.
 
In 2018, he was awarded a grant from the President of the Republic of Belarus for the development of physical and chemical bases for the formation of nanocomposite dielectric coatings with high heat-scattering characteristics and wear resistance based on nanoporous anodic aluminum oxide matrices and processes of low-temperature electrochemical deposition of metal oxide nanoparticles to increase reliability, reduce weight and size parameters and improve the thermal characteristics of the element base of power electronics and LED technology.
 
In 2016, he developed a technological process and equipment for the production of energy-saving heating elements based on aluminum and carbon fiber. The results of the development were implemented at the HORIZON Institute of Digital Television (Minsk, Belarus).
 
In 2009 and 2011, he won DAAD and DFG grants to conduct research in the field of obtaining ordered porous structures based on anode oxides of valve metals.
 
 
 
PROFESSIONAL MEMBERSHIPS
 
2017 - present - member of the International Organizing Committee of the International Scientific Conference "Elektronna Tekhnika", Sofia, Bulgaria.
 
2010 - present - reviewer of journals of the publishers Elsevier, Springer and Willey.
 
 

PUBLICATIONS, PATENTS AND OTHER SCIENTIFIC WORKS

More than 50 scientific publications, including 2 scientific monographs, more than 50 papers in international journals and conferences and 6 patents.

 

MAJOR PAPERS PUBLICATIONS IN 2015-2020 YEARS

  • Электрохимические процессы формирования анодных оксидов металлов с нанопористой структурой и их физико-химические и оптические свойства / И.А. Врублевский [и др.]. – Минск: Бестпринт, 2020. – 146 с.
  • Effect of Aluminum Anode Temperature on Growth Rate and Structure of Nanoporous Anodic Alumina / K. Chernyakova [and others] // Journal of the Electrochemical Society. – 2020. – Vol. 167. – Iss. 10. 103506.
  • Formation of ordered anodic alumina nanofibers during aluminum anodizing in oxalic acid at high voltage and electrical power / K. Chernyakova [and others] // Surface and Coatings Technology. – 2020. – Vol. 394. P. 125813.
  • Thermal flows in a PCB from aluminum with alumina generated by a linear heat source / K. Muratova [and others] // New Materials: Preparation, Properties and Applications in the Aspect of Nanotechnology. Chapter 12. Editors: Andrey G. Syrkov et al. New York:Nova Science Publishers. – 2020. – P.115-123.
  • Using the method of SEM image processing to study the morphology of porous anodic alumina films / N. Lushpa [and others] // New Materials: Preparation, Properties and Applications in the Aspect of Nanotechnology. Chapter 13. Editors: Andrey G. Syrkov et al. New York:Nova Science Publishers. – 2020. – P.125-132.
  • Investigation of the mechanism of electronic conductivity and parameters of localized states in porous anodic alumina films obtained in phosphoric acid / I. Vrublevsky [and others] // Proceedings of the 2020 IEEE International Conference on Electrical Engineering and Photonics, EExPolytech 2020. – Saint Petersburg, 2020. – P. 219 – 221.
  • Monitoring of Electrode Temperature in Exothermic Electrochemical Process / E.V. Chernyakova [and others] // 2019 IEEE XXVIII International Scientific Conference Electronics (ET). – 2019. – № 1. – P. 1 – 4.
  • Morphology investigation of nanoporous anodic alumina films with image analysis / N. V. Lushpa [and others] // Materials Physics and Mechanics. – 2019. – №41. P. 74 – 77.
  • Stored charge and its influence on properties of anodic alumina films / I. Vrublevsky [and others] // Current Nanoscience. – 2019. – Vol. 15, Iss. 1. – P. 100 – 109.
  • IR Scattering by Optically Inhomogeneous Nanoporous Anodic Alumina Films / E. N. Muratova [and others] // Inorganic Materials. – 2018. – Vol. 54, №. 6. – P. 564 – 567.
  • Formation of metal-oxide film nanostructures based on anodic alumina with uniformly distributed nanoscale Ta inclusions and their electrical properties / E.V. Chernyakova [and others] // Journal of Physics: Conf. Series 1121 012010. – 2018.
  • Thermal-Conductive Boards Based on Aluminum with an Al2O3 Nanostructured Layer for Products of Power Electronics / E.N. Muratova [and others] // Technical Physics. – 2018. – Vol 63, № 11. – P. 1626 – 1628.
  • Structural and Fluorescence Studies of Polycrystalline α-Al2O3 Obtained From Sulfuric Acid Anodic Alumina / E.V. Chernyakova [and others] // Phys. Status Solidi A. - 2018. – P. 1700892.
  • Effect of Joule Heating on Formation of Porous Structure of Thin Oxalic Acid Anodic Alumina Films / E.V. Chernyakova [and others] // Journal of The Electrochemical Society. – 2018. – № 165(7). – P. 289 – 293.
  • Study of thermal conductivity of nanoporous anodic alumina layer formed in sulphuric acid using steady-state heat flow technique / S. Andreev [and others] // 2017 XXVI International Scientific Conference Electronics (ET). - Bulgaria, 2017. - Р. 1-4.
  • Investigation of the efficiency of the heat dissipation for the heat-conducting circuit boards made of aluminum with the nanoporous alumina layer / S. Andreev [and others] // 40th International Spring Seminar on Electronics Technology (ISSE). – Sofia : IEEE Xplore Digital Library, 2017. - Р. 1-6.
  • Thermal radiation shielding by nanoporous membranes based on anodic alumina / E. N. Muratova [and others] // IOP Conf. Series: Journal of Physics: Conf. Series 872 (2017). – P. 1 – 5.
  • Structural and fluorescence characterization of anodic alumina/carbon composites formed in tartaric acid solution / E.V. Chernyakova [and others] // Journal of Luminescence. – 2017. – Vol. 182. – Р. 233 – 239.
  • Effect of continuous magnetic field on the growth mechanism of nanoporous anodic alumina films on different substrates / I. A. Vrublevsky [and others] // Journal of Solid State Electrochemistry. – 2016. – Vol. 20. – Iss. 10. – Р. 2765 – 2772. 
  • Флуоресцентные полупроводниковые и диэлектрические наноструктуры для медицинской диагностики: монография / В. С. Осипович [и др.]. – Минск: Бестпринт, 2016. – 356 с.
  • Применение наноструктурированного анодного оксида алюминия при изготовлении теплонагруженных плат для силовых модулей / Е. Чернякова [и др.] // Научни известия на НТСМ. - 2016. – Т. XXV. – № 12(174). – С. 257 – 263.
  • Експериментални методи за изпитване на аноден Al2O3 на огъване / В. Видеков [и др.] // Научни известия на НТСМ. – 2015. – Т. XXIII. – № 9(172). – С. 333-339.
  • Сравнительный анализ работы плоского нагревательного элемента на основании из анодированного алюминия / И. Врублевский и др. // Научни известия на НТСМ. – 2015. – Т. XXIII. – № 9 . – (172) . – С. 422 - 428.