PřF:C4010 Inorganic Chemistry III - Course Information
C4010 Inorganic Chemistry III
Faculty of ScienceSpring 2005
- Extent and Intensity
- 2/0/0. 2 credit(s) (fasci plus compl plus > 4). Recommended Type of Completion: zk (examination). Other types of completion: k (colloquium).
- Teacher(s)
- RNDr. Miloš Černík, CSc. (lecturer)
prof. RNDr. Jiří Příhoda, CSc. (lecturer) - Guaranteed by
- prof. RNDr. Jiří Příhoda, CSc.
Chemistry Section – Faculty of Science - Timetable
- Thu 9:00–10:50 03021
- Prerequisites
- C2062 Inorganic Chemistry II
General Chemistry Inorganic Chemistry I, II Analytical Chemistry I - Course Enrolment Limitations
- The course is also offered to the students of the fields other than those the course is directly associated with.
- fields of study / plans the course is directly associated with
- Analytical Chemistry (programme PřF, M-CH)
- Analytical Chemistry (programme PřF, N-CH)
- Inorganic Chemistry (programme PřF, M-CH)
- Inorganic Chemistry (programme PřF, N-CH)
- Biochemistry (programme PřF, M-CH)
- Biochemistry (programme PřF, N-CH)
- Physical Chemistry (programme PřF, M-CH)
- Physical Chemistry (programme PřF, N-CH)
- Chemistry (programme PřF, M-CH)
- Environmental Chemistry (programme PřF, M-CH)
- Environmental Chemistry (programme PřF, N-CH)
- Macromolecular Chemistry (programme PřF, M-CH)
- Macromolecular Chemistry (programme PřF, N-CH)
- Organic Chemistry (programme PřF, M-CH)
- Organic Chemistry (programme PřF, N-CH)
- Upper Secondary School Teacher Training in Chemistry (programme PřF, M-CH)
- Course objectives
- The course complements two undergraduate courses C1061 and C2062 with some interesting topics of modern inorganic chemistry and is divided in two main parts. The first one covers structure and properties of different allotropes of main group elements, homopolyatomic cations and anions of nonmetals and deals with chemistry of cage and cluster compounds of p-block elements, including boron hydrides and Zintl ions. The structure and bonding of electron deficient clusters molecules is treated by using Polyhedral Skeletal Electron Pair Theory. The second part covers some important aspects of coordination chemistry of transition and main group elements. Methods for the study of complexing equilibria, mechanisms of the comlex formation in the aqueous solutions and the determination of stability constants are presented. Exploitation of the complex formation in practice is briefly surveyed.
- Syllabus
- 1. The concept of periodicity and the physical and chemical properties of the elements. Allotropes and polymorphic of elements: Boron, phosphorus and sulfur. Chemical synthesis of sulfur allotropes. 2. The structure and the propertis of allotropic forms of carbon: diamond, graphite and fullerenes. Bonding in fullerene molecule and their chemical reactivity. Endohedral fullerenes, nanotubes. Chemical properties of graphite. Graphite intercalation compounds. 3. Clusters formed by the p-block elements and their parent polyhedra. Localized and delocalized bonding in polyhedral cages. Donor-acceptor links in clusters. Bonding in electron deficient clusters. 4. Classification and nomenclature of neutral boranes and hydroborate dianions. Carboranes and other heteroboranes. Boron halides with closed deltahedral Bn cores. 5. Bonding in boranes. The 3-centre-2-electron B-H-B and BBB interactions. Lipscomb's styx rules. Polyhedral Skeletal Electron Pair Theory (PSEPT) and prediction of a borane cluster structure. 6. Synthetic routes to clusters. Boranes and closo-hydroborate anions, p-block heteroboranes, polyhedral boron halides. Cubanes and adamantane-type clusters. Phosphorus chalcogenides and sulfur nitrides. 7. Homopolyatomic cations and anions of nonmetals. Synthesis of polyatomic chalcogen and halogen cations in superacidic solvents. The chemistry of Zintl phases. PSEPT and the structure of Zintl ions. 8. Ions in solution: solvation properties of solvents, solvation number, reactions connected with the presence of an ion in a solution, hydrolysis, polymerization etc. 9. Principles of coordination chemistry: coordination particle, central atom, ligands, their properties, coordination number and coordination polyhedra, stability of a complex, complex formation mechanisms, trans-effect, isomerism of complex compounds. 10. Types of complexforming reagents: chelate reagents, reagents suitable for formation of ion associates, organophosphorus ligands. 11. Methods for the study of complex compounds: spectrophotometry, extraction, ion exchange etc. 12. Formation of chelates and ion associates, theory of the extraction of chelates and ion pairs, influence of the extraction media (slope analysis), substoichiometric extraction, isotopic dilution. 13. Complexes of nonmetalic elements. 14. Complexes of main group and transition metals.
- Literature
- HOUSECROFT, Catherine E. Cluster molecules of the p-block elements. 1st ed. Oxford: Oxford University Press, 1994, 91 s. ISBN 0198556985. info
- GREENWOOD, N. N. and Alan EARNSHAW. Chemistry of the elements. Second edition. Oxford: Butterworth-Heinemann, 1997, xxii, 1341. ISBN 0750633654. info
- TAYLOR, Roger. Lecture notes on fullerene chemistry. London: Imperial College Press, 1999, 268 pp. ISBN 1-86094-109-5. info
- GOKEL, George W. Crown ethers and cryptands. Cambridge: The Royal Society of Chemistry, 1991, xii, 190 s. ISBN 0-85186-996-3. info
- STARÝ, Jiří. Separační metody v radiochemii (Separation metzods in radiochemistry). Praha: Academia, 1975, 400 pp. info
- BURGESS, John. Metal ions in solution. John Wiley & Sons, 1978, 481 pp. ISBN 0-470-26293-1. info
- STARÝ, Jiří. Ekstrakcija chelatov. Moskva: Mir, 1966, 392 s. info
- Assessment methods (in Czech)
- Přednáška Ústní zkouška
- Language of instruction
- Czech
- Further Comments
- Study Materials
The course is taught annually. - Listed among pre-requisites of other courses
- Enrolment Statistics (Spring 2005, recent)
- Permalink: https://is.muni.cz/course/sci/spring2005/C4010