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ORGANIC - CLUTCH
CH. 10 - ADDITION REACTIONS
CONCEPT: GENERAL MECHANISM
□ Addition reactions are ones in which 1 ______ bond is broken and 2 new ______ bonds are formed.
● They are the inverse of ___________________ reactions
EXAMPLE: Provide the mechanism for the following addition reaction.
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CONCEPT: MARKOVNIKOV’S RULE
□ When we try to perform addition on asymmetric double bonds, we now get two possible products.
● Markovnikov’s Rule predicts that the carbocation will ALWAYS form on the _________ _______________ carbon
EXAMPLE: Provide the mechanism for the following addition reaction.
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CONCEPT: HYDROHALOGENATION
General Reaction:
EXAMPLE: Provide the mechanism for the following addition reaction.
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CONCEPT: ACID-CATALYZED HYDRATION
● Same reagents as acid-catalyzed dehydration, except starting with a _____________ __________ instead of an alcohol.
● Same as the general mechanism hydrohalogenation, except with _____________ as the nucleophile
● Remember that EVERY acid-cat. mechanism begins with ________________ and ends with ________________
General Reaction:
EXAMPLE: Provide the mechanism for the following addition reaction.
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PRACTICE: Provide the mechanism and predict the product of the following reaction.
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CONCEPT: OXYMERCURATION-REDUCTION
General Reaction:
Mechanism:
1. Electrophilic Addition
2. Nucleophilic Substitution (SN2)
3. Reduction (demurcuration)
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PRACTICE: Provide the mechanism and predict the product of the following reactions.
a.
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CONCEPT: HYDROBORATION-OXIDATION
General Reaction:
Mechanism:
1. Electrophilic Addition
2. Oxidation
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PRACTICE: Provide the mechanism and predict the product of the following reactions.
a.
b.
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CONCEPT: CATALYTIC HYDROGENATION AND WILKINSON’S CATALYST
General Reaction:
PRACTICE: Provide the products for the following reaction.
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CONCEPT: HALOGENATION
General Reaction:
Mechanism:
1. Electrophilic Addition
2. Nucleophilic Substitution (SN2)
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CONCEPT: HALOHYDRIN FORMATION
General Reaction:
Mechanism:
1. Electrophilic Addition
2. Nucleophilic Substitution (SN2)
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PRACTICE: Provide the mechanism and predict the product of the following reactions.
a.
b.
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CONCEPT: CYCLOPROPANATION
□ Carbenes are reactive intermediates. They are unstable because they violate the ___________ ___________.
□ There are 4 methods commonly used to introduce carbene intermediates:
1.
2.
3.
4.
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CONCEPT: EPOXIDATION
□ Epoxides are added to double bonds using _________________ ____________
● Common reagents are _____________ and ___________
Mechanism:
□ Epoxides can also be generated though an intramolecular _______ reaction of halohydrins.
Mechanism:
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CONCEPT: EPOXIDE RING OPENING
1. Acid-Catalyzed Ring Opening
Following protonation of the epoxide, the nucleophile will attack the side of the ring with the most ___________ character:
2. Base-Catalyzed Ring Opening
The strong nucleophile will attack the side of the ring that is ___________ substituted
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CONCEPT: SYN VICINAL DIHYDROXYLATION
General Reaction:
EXAMPLE: Predict the product for the following multi-step reaction.
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CONCEPT: WEAK OXIDATIVE CLEAVAGE
Ozonolysis: Ketones + Aldehydes + Formaldehyde
PRACTICE: Predict the products of the following reaction
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CONCEPT: OZONOLYSIS – FULL MECHANISM
The mechanism for ozonolysis proceeds through multiple intermediates.
●Ozonolysis is combined with either a reductive, or an oxidative workup
□ Reductive workup: S(CH3)2 or Zn/HOAc
□ Oxidative Workup: H2O2
Ozonolysis Mechanism:
Reductive Workup Mechanism:
Oxidative Workup Mechanism:
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PRACTICE: Predict the products and show the full mechanism for the following reaction
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CONCEPT: OXIDATIVE CLEAVAGE
Strong Oxidative Cleavage: Ketones + Carboxylic Acid + Carbon Dioxide
PRACTICE: Predict the product of the following reaction.
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CONCEPT: OXIDATIVE CLEAVAGE
Cleavage of Alkynes: Carboxylic Acid + Carbon Dioxide
EXAMPLE: Predict the product of the following reaction.
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CONCEPT: ALKYNE HYDROHALOGENATION
□ Alkynes react with some addition reagents in excess to produce double addition products.
● Keep in mind that _____________ carbocations CANNOT easily rearrange.
Hydrohalogenation of Alkynes
□ Product: __________________________
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CONCEPT: ALKYNE HALOGENATION
Halogenation
□ Product: __________________________
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CONCEPT: ALKYNE HYDRATION
□ Vinyl alcohols are uniquely reactive due to a phenomenon called tautomerization.
● They reversibly swap the positions of a ___________ and a _____ bond.
Oxymercuration of Alkynes
□ Product: __________________________
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Hydroboration of Alkynes
□ Product: __________________________
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