Infopaket

Supramolecular chemistry

ОК.03

Обов’язкова дисципліна для ОП

Second

2023/2024

1 Semester

3

Knowledge and understanding of the subject area and understanding of professional activity. Ability to apply knowledge in practical situations. The ability to generate new ideas (creativity), as well as formulate judgments, having incomplete or limited information. The ability to evaluate and ensure the quality of the work performed Ability to communicate in English, both orally and in writing. Determination and persistence in relation to assigned tasks and assumed responsibilities. The desire to preserve the environment. Ability to organize, plan and implement a chemical experiment. The ability to orientate at a general level in a certain narrow area of ​​lying chemistry outside the chosen specialization. The ability to formulate new hypotheses and scientific problems in the field of chemistry, to choose appropriate ones directions and appropriate methods for their solution, taking into account the available resources.

Full-time form

The student should know: fundamental foundations of general, inorganic and organic chemistry, chemical theory connection, as well as the basics of physical and spectral research methods. The student should be able to: use modern electronic Internet resources available in the open access, interpret electronic, IR and mass spectra, NMR spectra.

Supramolecular chemistry includes elements of organic and inorganic synthesis, physical chemistry, coordination chemistry and biochemistry. Supramolecular chemistry is interdisciplinary approach to understanding and controlling intermolecular interactions in chemistry, molecular biology and of physics Molecules are formed by covalent bonding of atoms. The formation of of supramolecular ensembles often occurs at the expense of non-covalent, weak ones interactions. These interactions are often highly specific because they are based on a phenomenon recognition Other processes characteristic of supramolecular chemistry are change properties of the system upon specific binding with other molecules (reactive ability) and under the influence of external factors – irradiation, pH changes, oxidation/reduction (molecular devices and mechanisms); the possibility of specific transfer of molecules through membranes (transport of medicines); reactions between molecules in an ensemble (catalysis), a as well as processes similar to those that take place in biological systems.

[1] J. W. Steed, J. L. Atwood Supramolecular Chemistry, Wiley-VCH; 2nd edition (9 January 2009), ISBN:9780470512333, Online ISBN:9780470740880, DOI:10.1002/9780470740880. [2] В. Пивоваренко. Основи супрамолекулярної хімії. Рукопис, частина 1. [3] J.-М. Lehn Supramolecular Chemistry: Concepts and Perspectives. Wiley-VCH; 1st edition (June 1, 1995), ISBN:9783527293124; Online ISBN:9783527607433; DOI:10.1002/3527607439. [4] J. W. Steed, J. L. Atwood. Supramolecular Chemistry, 3-rd edition. Wiley, 2022. [5] J. W. Steed, D. R. Turner, K. J. Wallace, Core Concepts in Supramolecular Chemistry and Nanochemistry. Wiley, 2007. [6] P. J. Cragg. A Practical Guide to Supramolecular Chemistry. Wiley, 2005.

lectures, practical

- semester assessment: 1. Modular control work 1 - RN 1. - 15 points 2. Modular control work 2 - RN 2. - 15 points 4. Homework (presentation). – RN 4. – 20 points 5. Surveys during lectures and practical classes - 10 points - final evaluation: in the form of an exam The form of the exam is a test control robot and an interview based on it. Results training, which is evaluated in the test control work, is RN 1. The maximum number of points which can be obtained by a student, is 40 points.

Ukrainian