Infopaket

Chemistry of nanomaterials

ДВС.1.04.01

Вибіркова дисципліна для ОП

Second

2023/2024

2 Semester

4

The ability to build adequate models of chemical phenomena, to study them for obtaining new conclusions and deepening of understanding of nature, including using methods molecular, mathematical and computer modeling. Ability to organize, plan and implement a chemical experiment. The ability to interpret, objectively evaluate and present the results of one's work research. The ability to formulate new hypotheses and scientific problems in the field of chemistry, to choose directions and appropriate methods for their solution based on an understanding of modern issues research in the field of chemistry and taking into account the available resources. The ability to choose optimal research methods and techniques. Possession of the general methodology of carrying out scientific research.

Full-time form

1. Know the basics of general, inorganic and organic chemistry and have an idea about the structure of substances of different types. 2. Use scientific literature, analyze existing technological approaches to obtain materials of different classes, predict and explain their physicochemical properties. 3. Have the skills of chemical calculations.

The subject of the course is nanomaterials, methods of their preparation, structure and properties. The course consists of two content modules. In the first, the classification is outlined nanomaterials, general methods of their preparation, specific properties of nanostructures compared to macrostructures. Nanostructures arising at the interface are considered phases and micellar structures, methods of obtaining and stabilizing metal nanoparticles. In the second ZM, methods of obtaining and properties of nanomaterials are considered based on carbon and elements of II-VI groups of PSE, including semiconductor ones., as well oxide and composite materials, in particular oxides of elements of III-V groups, their structure are considered surfaces and methods of modifying such materials, as well as composites of various types on them basis

2. Nanotechnology Synthesis to Applications, S.Roy, Ch.Gosh, (ed.).- - Taylor & Francis Group, LLC, – 2018. 351 c. . 3. Balzani V., Credi A., Venturi M., Molecular Devices and Machines: a Journey to the NanoWorld. Willey, 2002. – 456 p. 4. Encyclopedia of Nanoscience and Nanotechnology (in 10 Vol.). H.S. Nalva (ed.).- ASP. – 2004. 5. E.S. Papazoglou, A. Parthasarathy, BioNanotechnology - Morgan&Claypool Publishers - 2020. 6. Nanomaterials Chemistry: Recent Developments and New Directions. C.N.R. Rao, A. Muller and A.K. Cheetham (Eds.). Wiley. – 2007. 7. Nanoscale materials in chemistry. K.J. Klabunde (Ed.). - Wiley. – 2001

lectures, laboratory

- semester assessment: 1. Modular control work: RN 1.1-1.3, 4.1 - 60 points/36 points. 2. Independent semester work: RN 2.1. – 30 points/20 points. 3. Report during the lecture: RN 1.4,3.1 - 10 points/4 points. Total: 100 points/60 points. - final assessment: absent

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