Major Research Area:
- Plasma Physics and Applications.
- Low-temperature Plasma Physics: Generation, Control, Diagnostics, and Applications.
- Plasma Physics and Applications in Materials Science and Space Propulsion.
Research Directions:
- Electrical, Optical, and Spectral Diagnosis of Low-temperature Plasmas.
- The Correlation between the Composition, Microstructure, Functional Properties of Thin Film Materials, and Their Application Potential.
- Pulsed Plasma Production Techniques and Their Applications in Materials Science and Space Propulsion.
- Advanced Materials for Solar Energy Conversion.
- Plasma-assisted Thin Film Deposition with Various Functional Properties (photo-piezocatalytic, protective, thermoneutral, etc.).
Research Topics:
- Magnetron Discharge Plasma: Modes of Operation, Diagnostic Methods, and Applications.
- Thermionic Arc Discharge Plasma in Vacuum: Diagnostic Methods and Applications.
- Magnetron Sputter Deposition of Thin Films: Diagnostic Methods and Quality Control. Applications.
- Deposition and Characterization of Thin Film Structures for Advanced Applications.
- Plasma-assisted Thin Film Deposition with Various Functional Properties (photocatalytic, protective, thermonuclear, etc.).
- Investigation of Morphological, Ferroelectric, Piezoelectric, and Magnetic Properties of Thin Films Using Atomic Force Microscopy.