Infopaket

Magnetochemistry

ВБ.3.07

Вибіркова дисципліна для ОП

Second

2021/2022

3 Semester

3

P1. Know and understand the scientific concepts and modern theories of chemistry, as well as the fundamental foundations of related sciences. P2. Deeply understand the basic facts, concepts, principles and theories related to the subject area mastered during the master's program, use them to solve complex tasks and problems, as well as conduct research in the relevant field of chemistry. P3. Apply the acquired knowledge and understanding to solve new qualitative and quantitative problems of chemistry. P5. To know the methods of computer modeling of the structure, parameters and dynamics of chemical systems. P10. Plan, organize and carry out experimental research in chemistry using modern equipment, competently process their results and draw reasonable conclusions. P14. Interpret experimentally obtained data and correlate them with relevant theories in chemistry.

Full-time form

The course "Magnetochemistry" is a special training course for masters specializing in "Inorganic Chemistry". In order to successfully master the presented material, students must have training in physics, higher mathematics, quantum chemistry, chemistry of coordination compounds, and physical methods of research. Students must: - have an idea about magnetic phenomena; - to know the theory of the structure of atoms and molecules, mechanisms of chemical bond formation, crystal field theory; - to be able to predict the spatial structure of coordination centers and the splitting of electronic levels under the action of a crystal field based on the composition of the substance; - be able to obtain information about the structural features of coordination and other compounds based on the analysis of physical research methods; - have practical skills in using modern equipment

The subject of the study discipline "Magnetochemistry" is structured in such a way as to give students an idea of the magnetic properties of substances and their relationship with the electronic and geometric structure of the central atoms of coordination compounds; methods of researching the magnetic properties of chemical substances of different classes and in different aggregate states; theoretical prediction of magnetic characteristics.

The main ones: 1. V.O. Pavlenko, I.O. Fritzky Introduction to magnetochemistry. K.: VOC "Kyiv University", 2012. 167 p. 2. Olivier Kahn, Molecular Magnetism. VCH Publishers 1993, 380 p. 3. A.F. Orchard. Magnetochemistry, OXFORD University press, 2003, 173 p. Additional: 1. Allan H. Morris/ The Physical Principles of Magnetism. John Wiley & Sons, 2001, 639 p. 2. A. Earnshaw. Introduction to magnetochemistry. Academic Press, 1968, 119 p. 3. P. Comba, T. W. Hambley. Molecular modeling of inorganic compounds, VCH, 1995, 205 h

Lectures (with the use of computer presentations), labs, self-study

Semester assessment: The maximum/minimum number of points that can be obtained by a student: 60 points / 36 points, namely: Modular control work #1: PH 1.1, PH 1.2, PH 1.3, PH 1.4, PH 4.2 – 15/9 points. Modular control work #2: PH 2.1, PH 2.2, PH 2.3 – 15/9 points. Laboratory work #1: PH 2.1, PH 2.2, PH 2.3, PH 3.1, PH 3.2 – 6/4 points. Laboratory work #2: PH 2.1, PH 2.2, PH 2.3 – 6/4 points. Laboratory work #3: PH 2.1, PH 2.2, PH 2.3, PH 2.4, PH 3.1, PH 3.2 – 6/5 points. Laboratory work #4: PH 2.1, PH 2.2, PH 2.3, PH 2.4, PH 4.1, PH 4.2 – 6/2 points. Laboratory work #5: PH 2.1, PH 2.2, PH 2.3, PH 2.4 PH 3.1, PH 4.2 – 6/3 points. Final evaluation (in the form of an exam): The maximum/minimum number of points that can be obtained by a student: 40 points / 24 points.

Ukrainian