Volodymyra Boichuk

Dr. Sci. (Physics and Mathematics),

Prof.
<strong>Personal information</strong><strong>Main publications</strong><strong>Activity</strong><strong>Contacts</strong>

Area of Expertise:

Teacher (Theory and Methodology of Physical and Chemical Experimental Works),

Research Staff Member (Physics and Chemistry of Surface, Material Science and Nanotechnology, synthesis of novel electrode materials for electric energy accumulation devices, materials properties testing using XRD, Mossbauer spectroscopy, XRF, impedance spectroscopy).

Educational Background (present to past).

2019    Doctor of science degree in Physics and Chemistry of Surface

Precarpathian National University (Ivano-Frankivsk, Ukraine)

Thesis for the degree of Doctor of the Physical and Mathematical Science in specialty 01.04.18 – physics and chemistry of surface: Synthesis, structural, morphological and electrochemical properties of nanocomposite systems based on Ni and Mo compounnds and carbon materials. Supervisor: prof. V.O. Kotsyubynsky

2008      Docent at Department of Theoretical and Experimental Physics, Precarpathian National University (Ivano-Frankivsk, Ukraine)

2004    Ph.D. degree in Chemistry of Solid State

Precarpathian National University (Ivano-Frankivsk, Ukraine)

Thesis for the degree of Ph.D. of the Chemistry in specialty 01.04.18 – Chemistry of Solid State: Physical and chemical properties of Pb-Ga (In, Tl)-Te solid solutions and crystallochemical models of atomic defects. Supervisor: prof. Freik D.M.

Scopus ID: 57204562775

Web of Science ResearcherID: AAE-2443-2020

The main directions of the scientific interest:

  • the experimental study of the correlation between ob­tai­ning conditions and structural and morphological parameters of composite sys­tems based on carbon nanomaterials (reduced graphene oxide (rGO), micro- and mesoporous carbon) and transition metals (nickel, molybdenum, iron) hydroxides, sulfides and oxides, ultra­fine nickel-iron spinel, as well as capacitive characteristics of electrochemical ca­pacitors based on these materials in aqueous alkaline electrolyte;
  • the com­parative analysis of the influence of acid and alkaline activation conditions on the electrochemical properties of porous carbon materials;
  • the electro­static and Faradaic capacitance contributions to the total capacitance of electrodes ba­sed on composite electrodes.
  • the synthesized of reduced graphene by Hummers and Marcano-Tour protocols;
  • the investigations of sur­factant type influence on the morphology of hydrothermally synthesized transitions metal oxides / carbon composite sys­tems;
  • the effect of the comp­le­xant type (glycine, citric acid, urea) on the gel formation and the structural peculiarities of spinel / rGO composite materials obtained by sol-gel self-com­bus­tion me­thod.
  • The modeling of spinel phase nucleation in an aqueous so­lu­tion the crystalloquasichemical approach and the partial charge theory;
  • The comprehensive analysis of the influence of morphological and electrophysical properties of composite systems based on ultrafine nickel hydroxide and molybdenum oxide and sulphide, iron-nickel spinel and carbon nanomaterials on capacitive characteristics of electrochemical capacitors.

E-mail: volodymyra.boichuk@pnu.edu.ua
Tel: +38(0342)596182
Vasyl-Stefanyk Precarpathian National University
room 116
57, Shevchenko Str.
76025, Ivan0-Frankivsk, Ukraine