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Chemistry 14D: Organic Reactions and Pharmaceuticals

Chemistry 14D: Organic Reactions and Pharmaceuticals (Winter 2010, UCLA). Instructor: Professor Steve Hardinger. This course provides an in depth analysis of organic reactions, nucleophilic and electrophilic substitutions and additions; electrophilic aromatic substitutions, carbonyl reactions, catalysis, molecular basis of drug action, and organic chemistry of pharmaceuticals.

Lecture 19 - Carbonyl Chemistry Fundamentals (cont.)


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Lecture 01 - Course Introduction
Lecture 02 - Ionic Substitution Reactions: SN2
Lecture 03 - Ionic Substitution Reactions: SN2 (cont.)
Lecture 04 - SN2 Reactions: Nucleophiles, Leaving Groups
Lecture 05 - SN2 Reactions: Solvents
Lecture 06 - SN2 Reactions (cont.)
Lecture 07 - Carbocations
Lecture 08 - Ionic Substitution Reactions: SN1
Lecture 09 - Ionic Substitution Reactions: SN1 (cont.), Elimination Reactions
Lecture 10 - Elimination Reactions (cont.)
Lecture 11 - Elimination Reactions (cont.)
Lecture 12 - Addition Reactions of Carbon-Carbon Pi Bonds
Lecture 13 - Addition Reactions of Carbon-Carbon Pi Bonds (cont.)
Lecture 14 - Electrophilic Aromatic Substitution
Lecture 15 - Electrophilic Aromatic Substitution (cont.)
Lecture 16 - Radicals
Lecture 17 - Radicals (cont.)
Lecture 18 - Free Radicals, Carbonyl Chemistry Fundamentals
Lecture 19 - Carbonyl Chemistry Fundamentals (cont.)
Lecture 20 - Carbonyl Chemistry (cont.)
Lecture 21 - Carbonyl Chemistry (cont.)
Lecture 22 - Carbonyl Chemistry: Reactions and Mechanisms
Lecture 23 - Carbonyl Chemistry: Reactions and Mechanisms (cont.)
Lecture 24 - Enolates, Enols, and Enamines
Lecture 25 - Enolates (cont.), Enols
Lecture 26 - Enols (cont.), Enamines
Lecture 27 - Biological Structures that Interact with Drugs