Course Information


Course Information
Course Title Code Semester L+U Hour Credits ECTS
CHEMISTRY OF HETEROCYCLIC COMPOUNDS II 801300715450 3 + 0 3.0 8.0

Prerequisites None

Language of Instruction Turkish
Course Level Graduate Degree
Course Type Compulsory
Mode of delivery Theoretical lecture, discussion, midterm.
Course Coordinator
Instructors
Assistants
Goals To provide profound knowledge about properties, reactions and synthesis of heterocyclic compounds. To develop interpretation and problem-solving skills; and the skills needed for being able to come up with suggestions as to what methods are suitable for reactions and synthesis of heterocycles and to follow recent developments in relevant subjects.
Course Content Structure, properties, reactions and preparation of a) three and four membered heterocyclic compounds; b) one or more fused ring heterocyclic compounds c) heterocyclic compounds with ring junction heteroatom; d) seven and more membered heterocycles. Examples of synthesis of some heterocyclic compounds in natural products and used in medicine and material production.
Learning Outcomes 1) Students are able to predict the relationship between structures and reactivity of heterocyclic compounds.
2) be able to suggest probable synthesis methods for heterocyclic compounds.
3) be able to discuss mechanisms of reaction involving heterocyclic compounds.
4) be able to survey and write a report related scientific research about heterocyclic compounds.
5) To be able to make suggestions for the solution of the problems relating heterocyclic compounds
6) be able to apply the knowledge about the importance of heterocyclic compounds in daily life and industrial applications.

Weekly Topics (Content)
Week Topics Teaching and Learning Methods and Techniques Study Materials
1. Week Physical properties and reactions of three-membered heterocyclic compounds. Lecture; Discussion

 Presentation (Including Preparation Time)
2. Week Reactions and synthesis of four-membered heterocyclic compounds. Lecture; Discussion

 Presentation (Including Preparation Time)
3. Week Synthesis and applications of biologically active 3- and 4-membered heterocyclic compounds. Lecture; Discussion

 Presentation (Including Preparation Time)
4. Week Reactions and synthesis of five membered heterocyclic compounds with fused ring. Lecture; Discussion

 Presentation (Including Preparation Time)
5. Week Synthesis and reactions of five membered heterocyclic compounds containing fused ring and ring junction heteroatom. Lecture; Discussion

 Presentation (Including Preparation Time)
6. Week Examples of applications and synthesis methods of industrially important five-membered heterocyclic compounds. Lecture; Discussion

 Presentation (Including Preparation Time)
7. Week Synthesis and reactions of six membered heterocyclic compounds with fused rings. Lecture; Discussion

 Presentation (Including Preparation Time)
8. Week Reactions and synthesis of five- and six- membered heterocyclic compounds with fused rings. Lecture; Discussion

 Presentation (Including Preparation Time)
9. Week Synthesis and reactions of six membered heterocyclic compounds containing fused rings and ring junction heteroatom. Lecture; Discussion

 Presentation (Including Preparation Time)
10. Week Examples of applications and synthesis methods of industrially important six-membered heterocyclic compounds. Lecture; Discussion

 Presentation (Including Preparation Time)
11. Week Synthesis and reactions of seven membered heterocyclic compounds. Lecture; Discussion

 Presentation (Including Preparation Time)
12. Week Synthesis and reactions of eight membered heterocyclic compounds. Lecture; Discussion

 Presentation (Including Preparation Time)
13. Week Synthesis and reactions of nine and more membered heterocyclic compounds. Lecture; Discussion

 Presentation (Including Preparation Time)
14. Week Applications of seven and more membered heterocyclic compounds. Lecture; Discussion

 Presentation (Including Preparation Time)

Sources Used in This Course
Recommended Sources
Eicher, T., Hauptmann, S., The Chemistry of Heterocycles : Structure, Reactions, Synthesis and Applications, 1995, ( H. Suschitzky ve J. Suschitzky tarafından tercüme edilmiştir). Georg Thieme Verlag Stuttgart-New York.
Joule, J. A., Mills, K., Smith, G. F. Heterocyclic Chemistry,1995. Chapman and Hall, London.
Katrizky, A. R., Pozharsky, A.F., Handbook of Heterocyclic Chemistry, 2nd Ed., 2000, Pergamon Press, Amsterdam.

ECTS credits and course workload
Event Quantity Duration (Hour) Total Workload (Hour)
Course Duration (Total weeks*Hours per week) 14 3
Work Hour outside Classroom (Preparation, strengthening) 14 3
Homework 3 5
Report (Including Preparation and presentation Time) 1 32
Activity (Web Search, Library Work, Trip, Observation, Interview etc.) 4 5
Midterm Exam 1 2
Time to prepare for Midterm Exam 1 16
Final Exam 1 3
Time to prepare for Final Exam 1 32
1 2
1 32
1 3
Total Workload
Total Workload / 30 (s)
ECTS Credit of the Course
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Course Information
  • Course Information
  • Weekly Topics (Content)
  • Sources Used in This Course
  • ECTS credits and course workload