UNIVERSITY OF SARGODHA
DEPARTMENT OF CHEMISTRY
COURSE OUTLINE SPRING 2020
Course Title: Organic Chemistry-II
Course Code: CHEM-373
Credit Hours: 3+1
Instructor: Dr Akbar Ali, Assistant Professor (Ph.D Organic Chemistry)
Email: [email protected]
DESCRIPTION & OBJECTIVES
This course (Organic Chemistry-II) focuses on the classification, methods of determination, kinetic and stereochemical aspects of reaction mechanisms of organic reactions. It includes addition (to >C=C<, ‒C≡C‒, >C=O), substitution (nucleophilic & electrophilic) at sp3 & sp2 hybridized C and elimination reactions. This course is a foundation course for Reaction Mechanism (CHEM-663, Organic Chemistry major course of semester-III), Organic Synthesis (CHEM-669, Organic Chemistry major course of semester-IV) and Advance Organic Synthesis (CHEM-750) of MSc and MPhil with organic chemistry specialization.
The practical work involves single step synthesis of small molecules followed by workup, isolation and purification of product.
READINGS
1. Clayden, J; Greeves, N; Warren, S., “Organic Chemistry”
2nd Edition, Oxford University Press, England (2008). Chapter 42 & 43 → E-copy available
2. March, J., Advanced Organic Chemistry, Wiley, NY. (1992).
3. Pine, S. H., Organic Chemistry, McGraw-Hill, New York. (1980).
4. Solomons, G. “Organic Chemistry” Edition 7th, McGraw-Hill, New York. (2009).
5. Hendrickson, Cram, and Hammond “Organic Chemistry” McGraw-Hill Book Co., New York. (1980).
CONTENTS
Theory:
1. Introduction and classification of reaction mechanism on different basis. Benefits of thermodynamic and kinetic data towards reaction mechanism. Kinetic vs thermodynamic control. Isotopic labeling and trapping of intermediates. Selectivity (Regio-, Chemo- and Stereoselectivity) vs Stereospecificity.
2. Addition reactions involving C=C, C≡C and C=O. Syn vs anti additions. Factors affecting addition reactions. Conjugate (1,4-) vs direct (1,2-) additions.
3. Classification of elimination reactions. Syn / anti and E1cB eliminations. E1 vs E2. Factors affecting eliminations.
4. Electrophilic and nucleophilic substitution reactions at aromatic systems. Nucleophilic substitution reactions (SN1, SN2, SNi, SN1', SN2', SNi', Neighboring group participation etc.) at aliphatic C. Td mechanism.
5. Active Methylene Compounds: Enolization and acid/base catalyzed aldol condensations. Alkylation, arylation and acylation of active methylene compounds. Conditions, mechanism and synthetic applications of the following reactions, Claisen reaction, Claisen–Schmidt reaction, Knovenagel reaction, Perkin reaction, Reformatsky reaction, Stobbes condensation, Darzen’s glycidic ester synthesis, Mannich reaction and Wittig reaction.
Organic Chemistry Lab. III (Cr.01)
- Synthesis of azodyes, iodobenzene (PhI), iodoform (CHI3), sulphanilic acid, cinnamic acid (PhCH=CH-COOH), benzil & benzilic acid, ethyl benzene (PhEt).
- Estimation of phenol & acetone, amino groups.
COURSE SCHEDULE
|
Week |
Topics and Readings |
Dates |
|
1. |
Introduction and classification of reaction mechanism, benefits of thermodynamic and kinetic data towards reaction mechanism elucidation (book-I, page 240-267). |
January 27-31, 2020 |
|
2. |
Kinetic vs thermodynamic conditions, isotopic labeling, trapping of intermediates and selectivity (regio- / chemo- / stereoselectivity) vs stereospecificity (book-I, page 1029-1068). |
February 03-07, 2020 |
|
3. |
Addition reactions involving >C=C< and ‒C≡C‒ (syn & anti). (book-I, page 427-444) |
February 10-14, 2020 |
|
4. |
Addition reactions involving >C=X / conjugated systems (X = O, S, NR). (book-I, page 498-526) |
February 17-21, 2020 |
|
5. |
Aldol reactions & factors affecting addition reactions (book-I, page 614-636). |
February 24-28, 2020 |
|
6. |
Electrophilic and nucleophilic substitution reactions at aromatic sytems (book-I, page 471-494). |
March 02-06, 2020 |
|
7. |
Selectivity (regio- / chemo- / stereoselectivity) vs stereospecificity (book-I, page 1029-1068). |
March 23-27, 2020 |
|
8. |
Nucleophilic substitution reactions (SN1, SN2, SNi, neighboring group participation / anchimeric assistance etc.) at aliphatic Carbon (book-I, page 328-357). |
March 30-31, and April 01-03, 2020 |
|
09. |
SN1', SN2', SNi', neighboring group participation / anchimeric assistance etc.) at aliphatic C, the Td mechanism (book-I, page 197-218). |
April 06-10, 2020 |
|
10. |
Mid-Term Examination April 12-18, 2020 |
|
|
11. |
Electrophilic substitution reactions at aliphatic C; the concept of enolization. Reformatsky, Mannich, Claisen, Claisen–Schmidt, Knovenagel, Perkin reactions etc. |
April 13-17, 2020 |
|
12. |
Classification of elimination reactions, syn / anti eliminations, E1 vs E2 eliminations (book-I, page 382-404). |
April 20-24, 2020 |
|
13. |
Dependence of elimination on eliminating groups. Factors affecting eliminations. |
April 27-30, 2020 |
|
14. |
1,3-Dicarbonyl systems (diethyl malonate, acetylacetonate etc.) and their pKa. Stobbes condensation |
May 04-08, 2020 |
|
15. |
P ylides. Wittig reaction |
May 11-15, 2020 |
|
17. |
Final-Term Examination ( XX-05, 2020) |
|
RESEARCH PROJECT
Nil
ASSESSMENT CRITERIA
Mid Term Examination: 15%
Sessional: 15%
Project / Practical work: 25%
Presentation: included in sessional marks
Participation: Nil
Final examination: 45%
RULES AND REGULATIONS
Minimum attendance required for sitting in Mid / Final Exam. = 75%
Course Material
- Total Lessons 7
- Department Chemistry
- About Visit Profile
-
Teacher
Dr. Akbar Ali
