The basic principles of organometallic chemistry will be discussed in this course. The modern chemistry is merged into one from classical organic chemistry and traditional inorganic chemistry. We will shed light on activation of small molecule by metal-ligand complex. We will discuss the stepwise mechanism of insertion of metal into organic molecules and elimination by different pathway. Only catalytic amount of metal can produce the large number of molecules those include drug, natural products, pharmaceuticals, our daily needs, etc. in gigantic quantity. INTENDED AUDIENCE:Students, PhD scholars, teachers, industryPREREQUISITES : NilINDUSTRY SUPPORT :All Pharmaceutical Industries
Organometallic Chemistry
Indian Institute of Technology Bombay and NPTEL via Swayam
This course may be unavailable.
Overview
Syllabus
Week 1:
Lecture 1: Introduction of Organometallic Chemistry
Lecture 2: Counting of Electrons
Lecture 3: Ligand Substitution Reactions
Lecture 4: Oxidative Addition [1.Concerted Mechanism]
Lecture 5: Oxidative Addition[2.SN2 Mechanism]
Week 2:
Lecture 6: Oxidative Addition[3.Radical Mechanism]
Lecture 7: Reductive Elimination
Lecture 8: Migratory Insertion & Elimination Reactions
Lecture 9: Migration & Insertion Reactions
Lecture 10: Alpha-Migratory Insertion & Alpha-Elimination Reactions
Week 3:
Lecture 11: Beta-Migratory Insertion
Lecture 12: Beta-Elimination Reaction
Lecture 13: Alpha-Abstraction & Beta-Abstraction
Lecture 14: 4-Center Reactions [2+2] Reactions
Lecture 15: External Attack by a Ligand & Reductive Coupling
Week 4:
Lecture 16: Hydrogenation Reaction
Lecture 17: Hydrogenation Reaction [Dihydride Catalyst]
Lecture 18: Stereoselective Hydrogenation Reaction
Lecture 19: Carbonylation Reaction [1.Monsanto Acetic Acid Process 2.Hydroformylation 3.Hydrocarboxylation]
Lecture 20: Carbonylation Reaction [1.Hydroformylation 2.Hydrocarboxylation 3.Hydrocyanation]
Lecture 1: Introduction of Organometallic Chemistry
Lecture 2: Counting of Electrons
Lecture 3: Ligand Substitution Reactions
Lecture 4: Oxidative Addition [1.Concerted Mechanism]
Lecture 5: Oxidative Addition[2.SN2 Mechanism]
Week 2:
Lecture 6: Oxidative Addition[3.Radical Mechanism]
Lecture 7: Reductive Elimination
Lecture 8: Migratory Insertion & Elimination Reactions
Lecture 9: Migration & Insertion Reactions
Lecture 10: Alpha-Migratory Insertion & Alpha-Elimination Reactions
Week 3:
Lecture 11: Beta-Migratory Insertion
Lecture 12: Beta-Elimination Reaction
Lecture 13: Alpha-Abstraction & Beta-Abstraction
Lecture 14: 4-Center Reactions [2+2] Reactions
Lecture 15: External Attack by a Ligand & Reductive Coupling
Week 4:
Lecture 16: Hydrogenation Reaction
Lecture 17: Hydrogenation Reaction [Dihydride Catalyst]
Lecture 18: Stereoselective Hydrogenation Reaction
Lecture 19: Carbonylation Reaction [1.Monsanto Acetic Acid Process 2.Hydroformylation 3.Hydrocarboxylation]
Lecture 20: Carbonylation Reaction [1.Hydroformylation 2.Hydrocarboxylation 3.Hydrocyanation]
Taught by
Debabrata Maiti
