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Course: Chemistry of Heterocyclic Compoounds

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Course title Chemistry of Heterocyclic Compoounds
Course code UOCHT/C920
Organizational form of instruction Lecture
Level of course Master
Year of study not specified
Semester Summer
Number of ECTS credits 4
Language of instruction Czech
Status of course Compulsory, Optional
Form of instruction Face-to-face
Work placements This is not an internship
Recommended optional programme components None
Lecturer(s)
  • Kulhánek Jiří, prof. Ing. Ph.D.
Course content
Terminology of heterocyclic compounds, retrosysthetic procedures, synthesis of heterocycles with the circle from 3 to 6 members of chain and condensed systems with oxygen as the heteroatom, synthesis of heterocycles with the circle from 3 to 6 members of chain and with one or more nitrogen as the heteroatom, synthesis of systems with more that 6-membered circle and condensed heterocycles with nitrogen as heteroatom, synthesis of heterocycles contained sulphur, synthesis of heterocycles with more type of heteroatom As, P, Sb, Se, Si, physical characteristics of heterocyclic compounds, electrophilic and nucleophilic substitutions, reactions of heterocycles with organometallic compounds, oxidizing, reducting and photogenic reactions on heterocyclic systems, using of heterocycles as protecting and activating group, natural compounds contain heterocycles.

Learning activities and teaching methods
Monologic (reading, lecture, briefing)
Learning outcomes
The aim of the course is acquainted students with synthesis of heterocyclic compounds and their reactions. It is based on using retrosynthetic methods and ability to take bearings in various methods of preparations. Students have to recognize places of reactivities of particular compounds and estimate their physical and chemical characteristics. They have to be able to use knowledge in the field of organic compounds and apply them on the heterocyclic compounds.
Having finished this course students are able to design synthesis of any heterocyclic compounds and choose the best method. Students orientate themselves in the field of reactivity of heterocycles and are able to use it to prepare new compounds.
Prerequisites
The fundamental knowledge of organic synthesis and reactivity of organic compounds

Assessment methods and criteria
Oral examination

The ability of exploited a combined of knowledge of organic chemistry in synthesis a reaction of heterocyclic compounds.
Recommended literature
  • Eicher T., Hauptmann S.:. The Chemistry of Heterocycles. Verlag, New York 1995. ISBN 3 13 100511 4..
  • Katritzky A. R., Pozharskii A. F.:. Handbook of Heterocyclic Chemistry, 2nd Edition. Pergamon, Amsterdam 2000..
  • Kováč J., Krutošíková A., Kada R.:. Chémia heterocyklických zlúčenín. Vydavatelství SAV, Bratislava 1982..


Study plans that include the course
Faculty Study plan (Version) Category of Branch/Specialization Recommended year of study Recommended semester
Faculty: Faculty of Chemical Technology Study plan (Version): Analytical Chemistry (2013) Category: Chemistry courses - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Technical Physical Chemistry (2015) Category: Engineering chemistry and chemistry of silicates - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Analytical Chemistry (2015) Category: Chemistry courses - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Organic Chemistry (2015) Category: Engineering chemistry and chemistry of silicates 1 Recommended year of study:1, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Technical Physical Chemistry (2013) Category: Engineering chemistry and chemistry of silicates - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Analytical Chemistry (2016) Category: Chemistry courses - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Organic Chemistry (2013) Category: Engineering chemistry and chemistry of silicates 1 Recommended year of study:1, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Organic Chemistry (2015) Category: Engineering chemistry and chemistry of silicates - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Organic Chemistry (2016) Category: Engineering chemistry and chemistry of silicates 1 Recommended year of study:1, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Inorganic ane Bioinorganic Chemistry (2013) Category: Chemistry courses - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Organic Chemistry (2013) Category: Engineering chemistry and chemistry of silicates - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Inorganic ane Bioinorganic Chemistry (2016) Category: Chemistry courses - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Inorganic ane Bioinorganic Chemistry (2015) Category: Chemistry courses - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Organic Chemistry (2016) Category: Engineering chemistry and chemistry of silicates - Recommended year of study:-, Recommended semester: Summer
Faculty: Faculty of Chemical Technology Study plan (Version): Technical Physical Chemistry (2016) Category: Engineering chemistry and chemistry of silicates - Recommended year of study:-, Recommended semester: Summer
University of Pardubice, date of update: 04.06.2024 23:50.