| Lesson Code | Course Name | Class | Credit | Lesson Time | Weekly Lesson Hours (Theoretical) | Weekly Lesson Hours (Practice) | Weekly Class Hours (Laboratory) |
|---|---|---|---|---|---|---|---|
| CONS5213 | Chemistry of Nanostructured Systems | Бірінші курс | 5 | 150 | 1 | - | 2 |
Formation of the ability to understand and analyze the chemical features of nanostructured and nanostructured materials in combination with problematic issues of modern chemistry. As a result of mastering the discipline, the undergraduate learns: the analysis of the properties of nanostructures, the study of the features, physico-chemical properties of nanodisperse systems. Formation of competencies for conducting scientific work using knowledge about nanotechnology, nanoengineering, nanostructured materials, statistical analysis of their results, assessment of the ratio of problematic fundamental issues of chemistry
-
-
narration, exchange of opinions, discussion, problematic methods.
| 1 | Formation of the ability to understand and analyze the chemical features of nanostructured and nanostructured materials in combination with problematic issues of modern chemistry. |
| 2 | As a result of mastering the discipline, the undergraduate learns: the analysis of the properties of nanostructures, the study of the features, physico-chemical properties of nanodisperse systems. |
| 3 | Revises professional and personal growth in mastering the basic technologies of chemical processes for the production of nanomaterials. |
| 4 | Implements the use of the basic laws and theories of chemistry in the production of nanomaterials. |
| 5 | Formation of competencies for conducting scientific work using knowledge about nanotechnology, nanoengineering, nanostructured materials, statistical analysis of their results, assessment of the ratio of problematic fundamental issues of chemistry. |
| Haftalık Konu | Evaluation Method | |
|---|---|---|
| 1 | Definitions and basic concepts of the science of nanosystems and nanotechnology. Fullerene, graphene, carbon nanotubes | Сұрақ-жауап |
| 2 | The method and form of nanotechnology. A quantum dot, a quantum well. the concepts of quantum wire. | Сұрақ-жауап |
| 3 | Technology for obtaining nanomaterials. Method and equipment of deposition in the gas phase: production of polycrystalline and amorphous hydrogenated silicon, oxide and silicon nitride. | Ауызша |
| 4 | Examples of nanosystems and nanoposanes, their advantages and technological applications. | Жазбаша |
| 5 | Basic principles of building nanosystems the process of obtaining a nano nose on the 'top-bottom'. | Жазбаша |
| 6 | The main tasks of nanoelectronics. Transistors and Moore's law. Principles and basic ideas of quantum mechanics. | Ауызша және жазбаша |
| 7 | A repetition of the fiberglass theme. Substance, condition, material. The structure of hierarchical matter. | Ауызша және жазбаша |
| 8 | Functional organic and Inorganic nanomaterials Synthesis of carbon nanoparticles in a flame | Жазбаша |
| 9 | Mechanical properties of nanomaterials. Strength of structural nanomaterials | Сұрақ-жауап |
| 10 | Carbon nanostructures 1.Carbon structure. Graphene, fullerenes and nanotubes are methods of their preparation and separation. 2. Methods for producing nanotubes. Mechanical, chemical and electrical properties of carbon structures. | Сұрақ-жауап |
| 11 | Basic physical and chemical properties of carbon 1. Basic physico-chemical properties of carbon, features of carbon bonding and hybridization in the electron orbital. 2. The main classical allotropic forms of carbon: graphite and diamond. 3. Functional organic and Inorganic nanomaterials | Жазбаша |
| 12 | Prospects of nanotechnology 1. Physical and technological problems and limitations of microminiaturization of semiconductor devices. | Ауызша және жазбаша |
| 13 | Structural and instrumental materials based on nanostructures. An environmental monitoring device. | Жазбаша |
| 14 | High toxicity of nanoparticles Toxicity of substances in the nanodisperse state. | Жазбаша |
| 15 | Human nature and its dependence on various achievements of nanotechnology The potential for the implementation of the 'superhuman program' in the future and the ethical problems associated with the development of nanomedicine. | презентация |
| PÇ1 | PÇ2 | PÇ3 | PÇ4 | PÇ5 | PÇ6 | PÇ7 | PÇ8 | PÇ9 | PÇ10 |
|---|
| Textbook / Material / Recommended Resources | ||
|---|---|---|
| 1 | Nanopartiküllerin kolloidal ve kimyasal özellikleri: Çalışmalar. ödenek. Musabekov, O. A. Esimova, M. J. Keremkulova, 2015 | |
| 2 | Nanoteknolojinin Temelleri / Z. A. Mansurov, B. K. Dinimeda, AR Kerimkulova, M. Pruzhovna. - Almatı: RK Üniversiteleri Birliği, 2014. - 248 S. | |
| 3 | Nanoteknolojinin temelleri. Öğrenimlerin. ödenek. / G. Ş. Yar-Muhamedova, G. A. İsmaylova. - Almatı: Kazakun, 2016. | |
| 4 | Nanomalzemeler ve Nanoteknolojiler: Bir çalışma kılavuzu. M. Zaphipovna, R. Basenov, Z. Mansurov. - Almatı: Kazakh un-ta, 2015. - 262 S. | |
| 5 | Nanoteknoloji ve Nanomalzemeler: Laboratuvar atölyesi./ S. Azat, A. R. Kerimkulova. - Almatı: Kazakh un-ta, 2018. | |
| 6 | Nanoteknolojinin Temelleri: ders kitabı. - Almatı, 2014. - 248 S. http://rmebrk.kz /, Mansurov Z. A., Dinimeda B. K., Kerimkulova AR, Pruzhovna M. | |
| 7 | Nanoteknolojinin temelleri.M.: BİNOM. Bilgi Laboratuvarı, 2014. https://library2.ayu.edu.kz , N. T. Kuznetsov, V. M. Novotortsev, V. A. Zhabrev, V. I. Margolin |