usseinov_ab@enu.kz
Master (scientific-pedagogical):
2014:- - Computer simulation (CS 5206)
- - Nanooptics (NO 5206)
- - Electron microscopy (EM 6310)
- - Thermal physics (ZhF 5304)
- - Solid state physics (SSP 5302)
- - Introduction to the theory of semiconductors (VTP 5307)
- - Terahertz photonics (TP 6209)
- - Numerical solution of model kinetic equations (NSMKE 6207)
- - Computer technologies in science and education (CTSE 6233)
- - Fundamentals of Nanotechnology (FON 5301)
- - Nanophononics (NPh 6306)
- - Physics of radioisotope medicine
- - Nanophononics (Np 6318)
- - Experimental methods in physics of low-dimensional systems (EMPhL 6314)
- - Physical principles of radionuclide diagnostics and therapy (RDTFP 5313)
- - Accelerator technique
- - Physics of nanosystems
- - Technologies and materials in quantum electronics (TMQE 6313)
- - Nanotechnologies in electrotechnical materials (NEM 6323)
- - Physical principles of radiation diagnostics and therapy (SDTFP 5312)
- - Superconducting materials and devices based on them (SMDBT 6322)
- - Technology of production of insulating materials (TPIM 6321)
- - Nanophotonics
- - Nuclear models (YaM 5301)
- - Fundamentals of nanotechnologies (FN5302)
- - Detecting equipment of nuclear physical experiment
- - Quantum Physics of Solids (MQPhS 5201)
- - Electron Theory of Metals (EThM 5202)
- - Physical properties of quasicrystals (PhPQ 5203)
- - Engineering design in NanoCad (EDNc 5301)
- - Electronic properties of quantum semiconductor heterostructures (EPQSH 5310)
- - Membranes and membrane technology (MMT 6320)
- - Tests and operation of electrical machines (TOEM 6324)
- - Quantum mechanics and statistics of nanoparticles (QMSN 6316)
- - Superconducting circuits and qubits (SCQ 6315)
- - Spectroscopic methods for analysis of materials (SMAM 6317)
Doctor PhD:
2017:- - Nuclear technologies (YT 7211)
- - Quasicrystal physics
Master (specialized):
2017:- - Introduction to the Theory of Semiconductors (ITS 5307.)
- - Technologies and materials in quantum electronics (TMQE 5310)
- - Thermal physics (TP 5203)
- - Solid state physics (SSP 5202)
- - Mathematical modeling of physical processes and systems (MMPPS 5307)
Bachelor:
2012:- - Physics I (Phys 2201)
- - Electromagnetic field theory (EFTh 3213)
- - Methods of mathematical physics (MMF 2211)
- - Basics of electronics
- - Basis of science-driven technologies and track-etched membranes production (BSDTTEMP 3310)
- - Quantum-mechanical description of atomic systems (QMDAS 3229)
- -
- - Computer modeling of physical processes (CMPhP 4232)
- - Electronic's basis (EN 3206)
- - Quantum mechanics (QM 4215)
- - Computational physics (CP 2214)
- - Technology of programming (PT 3215)
- - Interaction of radiation with heavy nuclei (IRWhN 5158)
- - Condensed state physics (CSPh 4212)
- - Fundamentals of membrane technology (FMT 4308)
- - Computer graphics and animation (CGA 3223)
- - Fundamentals of Computer Physics (FCPh 3224)
- - Fundamentals of Computer Physics (FCPh 2222)
- - Condensed Matter and Nanosystem Physics (FKSN 5225)
- - Introduction to the physics of atomic nucleus (IPhAN 3215)
- - Computing Physics (CPh 3224)
- - Basics of computer physics (BCP 3202)
- - Physical basis of nuclear medicine (PBNM3233)
- - Physical bases of nuclear medicine (PhBNM 3225)
- - Basic Electronics (BE 3212)
- - The structure of atomic nucleus (SAN 4307)
- - Condensed matter physics and nanosystems (CMPhN 5312)
- - Heavy-Ion Physics (HIPh 5313)
- - Programming technology (PT 2221)
- - Physics thermonuclear synthesis (PhThS 4315)
- - Physical bases of nuclear medicine (PhBNM 4207)
- - The use of nuclear facilities in medicine (UNFM 4208)
- - Condensed Matter Physics (CMPh 4218)
- - Vacuum engineering and laser equipment
- - Accelerator Physics (APh 4308)
- - Nuclear reactions at low energies (NPhLE 4304)
- - Physic of condensed state
- - Hydrogen Energy and nanostructured materials (HENM 5315)
- - Radiation solid state physics (RSSPh 5314)
- - Computing Physics (CPh 2222)
- - Basics of electronics (BE 3217)
- - Basics physics of nanosystems (BPhN 3236)
- - Solid state physics (SSPh 4212)
1. The Influence of Annealing on the Structural, Optical and Electrical Properties of Copper Selenite Nanocrystals Synthesized by the Chemical Deposition Method.
Crystals. 2025
2. Annealing Effect on Structural, Optical and Electrophysical Properties of ZnSe Nanocrystals Synthesized into SiO2/Si Ion Track Template.
Materials. 2024
3. Synthesis of Orthorhombic Tin Dioxide Nanowires in Track Templates.
Materials. 2024
4. Study of β-Ga2O3 Ceramics Synthesized under Powerful Electron Beam.
Materials. 2023
5. ITO Thin Films for Low-Resistance Gas Sensors.
Materials. 2023
6. Pair vacancy defects in β-Ga2O3 crystal: Ab initio study.
Optical Materials X. 2022
7. Ion-Track Template Synthesis and Characterization of ZnSeO3 Nanocrystals.
Crystals. 2022
8. Simultaneous Immobilization of Gadolinium Ions and Di(o-carborano-1,2-dimethyl)borate on Fe3O4 Nanoparticles.
Bulletin of the Karaganda University Chemistry Series. 2022
9. The Mechanism of the Formation of Grain Boundaries Nanopores in Polycrystalline Materials.
Proceedings 16th International Conference on Advanced Trends in Radioelectronics Telecommunications and Computer Engineering Tcset 2022. 2022
10. Formation of porous Ga2O3/GaAs layers for electronic devices.
Proceedings 16th International Conference on Advanced Trends in Radioelectronics Telecommunications and Computer Engineering Tcset 2022. 2022
11. Vacancy defects in Ga2O3: First-principles calculations of electronic structure.
Materials. 2021
12. Ab-Initio Calculations of Oxygen Vacancy in Ga2O3Crystals.
Latvian Journal of Physics and Technical Sciences. 2021
13. Nanostructure Formation on ZnSe Crystal Surface by Electrochemical Etching.
Proceedings of the 2021 IEEE 11th International Conference Nanomaterials Applications and Properties Nap 2021. 2021
14. Morphology Study of the Porosity of the GaP Surface Layer Formed on the Surface of a Single Crystal by Electrochemical Etching.
Proceedings of the 2021 IEEE 11th International Conference Nanomaterials Applications and Properties Nap 2021. 2021
15. CdTe Nanocrystal Synthesis in SiO2/Si Ion-Track Template: The Study of Electronic and Structural Properties.
Physica Status Solidi A Applications and Materials Science. 2021
16. Ion track template technique for fabrication of ZnSe2O5 nanocrystals.
Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms. 2020
17. The impact of the collision cascades on the xenon and helium clusters in PuO2 crystals. A molecular dynamics simulation.
Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms. 2020
18. Sputtering of material from the surface of PuO2 crystals by collision cascades impact. A molecular dynamics study.
Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms. 2020
19. Ab initio calculations of pure and Co+2-doped MgF2 crystals.
Nuclear Instruments and Methods in Physics Research Section B Beam Interactions with Materials and Atoms. 2020
20. Creating cdte nanoclusters in SiO2/Si track templates with the use of two electrolyte types.
Aip Conference Proceedings. 2019
21. Template synthesis of ZnSe2O5 nanocrystals.
Aip Conference Proceedings. 2019
22. The first principles calculations of CO2 adsorption on (10 1 ̄ 0) ZnO surface.
Aip Conference Proceedings. 2019
23. Structure, electrical properties and luminescence of ZnO nanocrystals deposited in SiO2/Si track templates.
Radiation Measurements. 2019
24. Synthesis of ZnO Nanocrystals in SiO2/Si Track Template: Effect of Electrodeposition Parameters on Structure.
Physica Status Solidi B Basic Research. 2019
25. Structure of zinc oxide nanocrystals in track templates.
Journal of Physics Conference Series. 2018
26. Kinetics of cathodoluminescence of LiF crystals doped with uranium.
Journal of Physics Conference Series. 2018
27. Transition levels of acceptor impurities in ZnO crystals by DFT-LCAO calculations.
Journal of Physics Conference Series. 2018
28. Hydrogen induced metallization of ZnO (11Ì...00) surface: Ab initio study.
Thin Solid Films. 2014
29. Hydrogen adsorption on the ZnO (1100) surface: Ab initio hybrid density functional linear combination of atomic orbitals calculations.
Physica Scripta. 2014
30. Atomic and electronic structure of hydrogen on ZnO (100) surface: Ab initio hybrid calculations.
Iop Conference Series Materials Science and Engineering. 2013
