Załącznik nr 4 do ZW 1/2007
DESCRIPTION OF THE COURSES
• Course codę: CHC020010w
• Course title: Advanced Organie Chemistry
• Language of the lecturer: Polish or English
Course form |
Lecture |
Classes |
Laboratory |
Project |
Seminar |
Number of hours/week * |
2 | ||||
Number of hours/semester* |
30 | ||||
Form of the course completion |
Test | ||||
ECTS credits |
3 | ||||
Total Student’s Workload |
90 |
• Level of the course (basic/ądyanęed):
• Prereąuisites: passed course “Fundamentals of organie chemistry”
• Name, first name and degree of the lecturer/supervisor: Prof. Jacek Skarżewski
• Names, first names and degrees of the team’s members:
• Year:... (MSc course) Semester:...............
• Type of the course (obligatory/optional):
• Aims of the course (effects of the course): Passing the course students should understand the reactivity of main groups of organie compounds. They should be able to apply the mastered mechanisms of organie reactions in order to explain the course of moderately complex molecular transformation.
• Form of the teaching (traditional/e-learning):
• Course description: A generał knowledge of the generation, detection and structure of important classes of reactive compounds as well as charged and neutral reactive intermediates, e.g. carbocations, anions, radicals, carbenes, and arynes. Knowledge of how the reactions involving such compounds and intermediates can be used in organie synthesis.
• Lecture:
Particular lectures contents |
Number ofhours |
1. Reaction intermediates, transition State, Hammond postulate 2. Reactions of carbonyl compounds: Alkylation of enolates and |
2 |
enamines |
2 |
3. Aldol and Claisen condensations. Michael addition. |
2 |
4. Reactions of organometallic compounds (Li, Mg, Zn,...). |
2 |
5. Stereocontrolled reactions: diastereo- i enantiostereoselectivity |
2 |
6. Reactions of organoboron, -Silicon, and -tin compounds. |
2 |
16