7M07120 Nanomaterials and Nanotechnologies

Цель: Provide preparation of specialists with sufficient knowledge and qualities of engineering technologists, researchers and investigators to conduct scientific and technical works in the field of nanotechnology and creation of nanomaterials with specified properties, using the knowledge of elective directions on synthesis of nanomaterials by physical and chemical methods, also analysis of properties of nanomaterials by modern methods of spectroscopy and microscopy.

Предметы на ЕНТ: Mechanics и Basis is nanotechnology

Educational program

Provide preparation of specialists with sufficient knowledge and qualities of engineering technologists, researchers and investigators to conduct scientific and technical works in the field of nanotechnology and creation of nanomaterials with specified properties, using the knowledge of elective directions on synthesis of nanomaterials by physical and chemical methods, also analysis of properties of nanomaterials by modern methods of spectroscopy and microscopy.

1. Able to show knowledge and understanding of conceptual, theoretical and practical methods for the synthesis of nanomaterials for specific scientific-technical and scientific-pedagogical tasks in the field of nanomaterials and nanotechnology.
2. Use physical and chemical methods of obtaining nanoobjects and their composites for solving applied problems, as well as methods for describing the structures, structures, composition, morphology and other properties of nanomaterials based on electron and probe microscopy and modern spectroscopy methods.
3. Use fundamental and modern knowledge in related fields of nanomaterials and nanotechnology in the field of nanostructured education.
4. Interpret modern scientific concepts and theories within the research context in the field of nanomaterials and nanotechnology to analyze the results of scientific research and educational work.
5. To identify similarities and differences between the world and Kazakhstan science in the field of innovative technology in order to create new functional nanomaterials.
6. Apply modern information technologies for search, storage, processing and transfer of a necessary new scientific and innovative form of activity for experimental and theoretical research for development and improvement of methods of synthesis of nanostructured composite materials by means of plasma chemical technology.
7. Practice professional skills in scientific-technical and scientific-pedagogical activity for solving problems in interdisciplinary fields of nanotechnology.
8. Draw conclusions on the results of the study, to make independent decisions in solving problems of obtaining nanomaterials with specified properties on the basis of the knowledge and to justify them.
9. Critically evaluate modern scientific concepts and theories in the field of nanomaterials and nanotechnology to determine the object and subject of independent research.
10. Develop research algorithms for obtaining and modifying nanostructured composite particles.
11. Generate new ideas and knowledge by conducting original scientific theoretical and experimental research in related fields of nanomaterials and nanotechnology, the results of which are presented in the abstracted publications.
12. Analyze the priorities of educational and research activities for decision-making and participation in their implementation, the manifestation of the conjugation of personal interests with the needs of society, to be able to report on the results of research in the scientific community at international conferences, to protect and defend their point of view.

Master's degree educational programs

Persons entering the master’s degree or residency:
when applying to organizations of university and postgraduate education:
1) an application addressed to the head of the organization of higher and postgraduate education in any form;
2) document on higher education (original);
3) certificate of completion of the internship (for admission to residency);
4) identity document (required for personal identification);
5) six photographs 3x4 centimeters in size;
6) a medical certificate in the f

Curriculum

СЕМЕСТР 1

History and philosophy of science-3 ECTS
Pedagogy of Higher education-5 ECTS
Nanoelectrtonics for industry-9 ECTS
Crystal Physics and Structural Analysis of Nanomaterials-9 ECTS
Basics of Nanotechnology in Materials Science-9 ECTS
Research Seminar-1 ECTS
Dissertation Writing-1 ECTS

СЕМЕСТР 2

Physical and Chemical Properties of Nanomaterials-6 ECTS
Physical fundamentals of microelectronics-6 ECTS
Organization and Planning of Scientific Research (in English)-6 ECTS
Nanomedicine based on plasma technology-6 ECTS
Pedagogical-4 ECTS
Foreign Language (professional)-5 ECTS
Research Seminar-1 ECTS
Dissertation Writing-1 ECTS
Psychology of Management-3 ECTS

СЕМЕСТР 3

Technology of manufacture of semiconductor nanostructures-9 ECTS
Research-4 ECTS
Synthesis of carbon composite nanomaterials in a plasma medium-9 ECTS
Nanostructured materials in construction-9 ECTS
Basics of nanotechnology of consolidated materials-9 ECTS
Dissertation Writing-2 ECTS
Advanced composite nanomaterials-9 ECTS
Experimental methods for the study of nanomaterials and nanostructures-9 ECTS
Plasma technology for the reconstruction of the surface materials-6 ECTS

СЕМЕСТР 4

Research-4 ECTS
Scientific Internship-3 ECTS
Research Seminar-1 ECTS
Dissertation Writing-10 ECTS
Publication in the Proceedings of International Conferences-4 ECTS
Final Attestation-8 ECTS

Employment

The goal is to train competitive specialists with sufficient knowledge, able to assimilate new objects of knowledge, and to generate new knowledge in the field of nanomaterials and nanotechnology, formulate production tasks in professional language and solve them with the help of modern technologies. To provide students with systematic knowledge of physics, chemistry, biochemistry, based on a solid experimental and theoretical basis, along with knowledge in elective areas based on the latest achievements of science. To build systematic skills related to problem solving, critical appraisal of initial data. Provide mastery of practical computing techniques and skills. Provide mastery of practical computing techniques and skills. To formalize the results of scientific results in Master's thesis and scientific publications. To form the students' ability to make a confident choice of the direction of future professional activity and successfully find a job in the chosen sphere by the end of training. The advantages of the educational program. Graduated students will know about: 1) All kinds of analytical equipment in nanomaterials research; 2) Basic methods of creating nanomaterials; 3) Using advanced methods of nanotechnology (production, research and application of nanomaterials); 4) Writing research reports and scientific articles. Academic mobility Master students with the best results can be trained in foreign universities. Foreign partners of the department: 1) Polytechnic University of Valencia, (Spain) 2) Moscow Power Engineering Institute (Technical University) (Russia) 3) Universities in Rostock, Heidelberg, Graysfeld, Jörlangen (Germany) 4) Institute of Plasma Research, Gujarat, (India) 5) University of Orleans, (France) 6) University of Arizona, (USA) 7) Landau Institute for Theoretical Physics, (USA) L. D. Landau Institute for Theoretical Physics, Chernogolovka, (Russia) 8) Institute of Physics of the National Academy of Sciences of Belarus, Belarusian State University, (Belarus) 9) University of Paris, (France) 10) Joint Institute for High Temperatures RAS, (Russia) 11) Osaka University, Institute of Laser Engineering (Japan) 12) Novosibirsk State Technical University (Russia) Budker Novosibirsk State Technical University (Russia). Best teachers: You will have the opportunity to learn from the best scientists in the country, laureates of state prizes in the field of plasma physics and nanotechnology, academicians of the National Academy of Sciences of the RK, PhD doctors defended at the best universities in the world. Potential employers: 1) Institute of Experimental and Theoretical Physics; 2) National nanotechnological laboratory of open type; 3) Institute of Combustion Problems; 4) Research Institute of New Chemical Technologies and Materials; 5) Center for Physicochemical Methods of Research and Analysis; 6) Laboratory of Engineering Profile at Al-Farabi Kazakh National University.

Contacts

Department of Plasma physics, nanotechnology and computer physics, Faculty of physics and technology, al-Farabi Kazakh National university address: al-Farabi ave., 71 Tel.: +7(727) 221-15-53 e-mail: Sandugash.Kodanova@kaznu.kz Social pages: @plasma_phys_nano_computer_phys