Chem 35 Syllabus
This document was uploaded by user and they confirmed that they have the permission to share it. If you are author or own the copyright of this book, please report to us by using this DMCA report form. Report DMCA
Overview
Download & View Chem 35 Syllabus as PDF for free.
More details
- Words: 342
- Pages: 2
Chem 35 Course Description: A comprehensive Study of Organic Compounds: Reaction mechanisms and Spectroscopic Methods of Identification Prerequisite: Chem 31 and Chem 31.1 Credit: 3 units I. Organic Reactions and Mechanisms A. Kinetics, Energetics, and Investigation of Mechanism B. Review of Typical Organic Reaction and Mechanism 1. Radical Reactions I.1 Radical Formation I.2 Radical Stabilization I.3 Radical Coupling Reaction I.4 Substitution at Saturated Carbon I.5 Radical Additions I.6 Stereochemistry of Radical Reactions 2. Substitution Reactions 2.1 Nucleophilic Substitution at Saturated Carbon 2.2 Nucleophilic Substitution at Unsaturated Carbon 2.3 Electrophilic Aromatic Substitution 3. Elimination Reactions 4. Addition Reactions 4.1 Electrophilic Addition Reaction 4.2 Stereochemistry of Addition Reaction 4.3 Nucleophilic Addition Reaction II. A. B. C. D. E. F. G.
Redox Reactions Oxidation State Oxidation at a Single Carbon Oxidation at Two Adjacent Carbons Oxidation at Other Atoms Catalytic Hydrogenation Reduction with Hydrides Reduction with Metals
III. Reactions of Carbanions A. Carbanion and Tautomerism B. Carbon Nucleophile Addition Reactions 1. Grignard Reaction 2. Reaction of Acetylide 3. Aldol Reactions 4. Perkin Reaction 5. Claisen Ester Condensation Reaction 6. Benzoin Condensation 7. Benzilic acid rearrangement 8. Wittig Reaction 9. Michael Addition 10. Carbonation Reaction C. Carbanion Elimination Reaction: Decarboxylation Reaction
D. Carbanion Displacement Reaction 1. Malonic Ester Synthesis 2. Wurtz Synthesis 3. Reimer-Tiemann Reaction E. Halogenation and Alkylation of alpha Carbon of Carbonyl Compounds 1. Haloform Reaction 2. Hell-Volhard-Zelensky Reaction IV.
Molecular Rearrangements 1. General Mechanism 2. Migration to Electron Deficient Carbon, Oxygen, and Nitrogen 3. Anionic Skeletal Rearrangements 4. Rearrangements on an Aromatic Ring
V.
Pericyclic Reactions 1. Electrocyclic Reaction 2. Cycloaddition Reaction 3. Sigmatropic Rearrangement
VI.
Heterocyclic Reactions 1. Aromaticity and Reactivity 2. Reactions of Five-Membered Heterocycles 3. Reactions of Six-Membered Heterocycles 4. Reactions of Heterocycles with Two or More Heteroatoms
VII.
Polymerization Reactions 1. Chain-Growth Polymerization 2. Step-Growth Polymerization
VIII. Organic Synthesis 1. Factors in Design of Synthesis 2. Functional Group Interconversions and Disconnections 3. Carbon-Carbon Bond Formations 4. Synthesis of Some Important Natural Products IX.
Characterization of Organic Compounds 1. Mass Spectroscopy 2. Infrared Spectroscopy 3. NMR Spectroscopy 4. UV/Visible Spectroscopy
Redox Reactions Oxidation State Oxidation at a Single Carbon Oxidation at Two Adjacent Carbons Oxidation at Other Atoms Catalytic Hydrogenation Reduction with Hydrides Reduction with Metals
III. Reactions of Carbanions A. Carbanion and Tautomerism B. Carbon Nucleophile Addition Reactions 1. Grignard Reaction 2. Reaction of Acetylide 3. Aldol Reactions 4. Perkin Reaction 5. Claisen Ester Condensation Reaction 6. Benzoin Condensation 7. Benzilic acid rearrangement 8. Wittig Reaction 9. Michael Addition 10. Carbonation Reaction C. Carbanion Elimination Reaction: Decarboxylation Reaction
D. Carbanion Displacement Reaction 1. Malonic Ester Synthesis 2. Wurtz Synthesis 3. Reimer-Tiemann Reaction E. Halogenation and Alkylation of alpha Carbon of Carbonyl Compounds 1. Haloform Reaction 2. Hell-Volhard-Zelensky Reaction IV.
Molecular Rearrangements 1. General Mechanism 2. Migration to Electron Deficient Carbon, Oxygen, and Nitrogen 3. Anionic Skeletal Rearrangements 4. Rearrangements on an Aromatic Ring
V.
Pericyclic Reactions 1. Electrocyclic Reaction 2. Cycloaddition Reaction 3. Sigmatropic Rearrangement
VI.
Heterocyclic Reactions 1. Aromaticity and Reactivity 2. Reactions of Five-Membered Heterocycles 3. Reactions of Six-Membered Heterocycles 4. Reactions of Heterocycles with Two or More Heteroatoms
VII.
Polymerization Reactions 1. Chain-Growth Polymerization 2. Step-Growth Polymerization
VIII. Organic Synthesis 1. Factors in Design of Synthesis 2. Functional Group Interconversions and Disconnections 3. Carbon-Carbon Bond Formations 4. Synthesis of Some Important Natural Products IX.
Characterization of Organic Compounds 1. Mass Spectroscopy 2. Infrared Spectroscopy 3. NMR Spectroscopy 4. UV/Visible Spectroscopy
Related Documents
Chem 35 Syllabus
November 2019 4
New Chem Syllabus
May 2020 5
Chem 156 Syllabus
November 2019 3
Al Chem Syllabus
May 2020 3
Ce Chem Syllabus
May 2020 6