Inorganic Chemistry 2

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Status of the course

Course objectives

Course enrolment requirements and entry competences required for the course

Introduce students to the chemistry of transition metals and to the structure and properties of their compounds. Applying important theoretical principles of atomic theory and chemical bonding in explanation of structure of complex compounds with examples of their use and importance in bioinorganic and organometallic chemistry.

Learning outcomes expected at the level of the course (4 to 10 learning outcomes)

At the end of the course students will:
- know the characteristic properties and reactions of transition metal
- be able to predict physical and chemical properties of transition metals compounds based on the knowledge of their structure
- be able to determine the structure and predict the properties of complex ions and their compounds
- be able to predict the influence of ligands on the properties of complex ions and their compounds
- understand the basic problems in bioinorganic and organometallic chemistry

Course content broken down in detail by weekly class schedule (syllabus)

1. lecture: Introduction to the Chemistry of transition elements
2. lecture: Group III PSE, lanthanides and actinides
3. lecture: IV and V groups PSE
4. lecture VI and VII of the PSE Group
5. lecture: VIII and IX of the PSE Group
6. lecture: X, XI and XII PSE group
7. lecture: Complex compounds, types of ligands, isomerism, the application of valence bond theory
8. lecture: Theory of crystal field
9. lecture: Theory of molecular orbitals (LCAO) and photoelectron spectroscopy, symmetrical operations
10. lecture: ligand field theory.
11. lecture: The stability of complex compounds, thermodynamic and kinetic
12. lecture: Spectroscopic and magnetokemijsko behavior of complex compounds.
13. lecture: Organometallic compounds.
14. lecture: Bioinorganic Chemistry.
1. seminar: Transition elements,
2. seminar: Elements of 4th-5th PSE group
3. seminar: Elements 5th-6th PSE group
4. seminar: Elements of 7th-8th PSE group
5. seminar: Elements of 9th-10th PSE group
6. seminar: Elements of 11th-12th PSE group
7. seminar: Coordination nomenclature
8. seminar: isomerion complex compounds
9. seminar: The structure of complex ions, magnetic properties
10. seminar: Forecasting the colors of the complex based on the type of ligand and cleavage d orbitals of the metal ion
11. seminar: Determining the structure of a complex compound on the basis of experimental results
12. seminar: Identifying stable complexes
13. seminar: Organometallic Compounds
14. seminar: Bioinorganic Chemistry

Format of instruction:

Student responsibilities

The 80% presence at lectures and seminars, and completed all laboratory exercises.