Chapter 10.6: Acid-Catalyzed Dehydration of Alcohols Flashcards Preview

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Flashcards in Chapter 10.6: Acid-Catalyzed Dehydration of Alcohols Deck (11)
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1
Q

Describe the mechanism behind the Acid-Catalyzed Dehydration of an Unbranched Primary Alcohol

A

o Step 1: Add a Proton
 Proton transfer from the hydronium ion to the hydroxyl group gives an oxonium ion
o Step 2: Take a Proton Away and Simultaneously Break a Bond to Give Stable Molecules or Ions
 Simultaneous proton transfer to solvent and loss of water gives the carbon-carbon double bond of the terminal alkene
o Step 3: 1,2 Shift and Simultaneously Break a Bond to Give Stable Molecules of Ions
 Simultaneous shift of a hydride ion from the β-carbon to the α-carbon and loss of water gives a carbocation intermediate
o Step 4: Take a Proton Away
 Transfer of a proton from a carbon adjacent to the carbocation to solvent gives the rearranged alkenes.

2
Q

What reagents are involved in the formation of an alkene from acid-catalyzed dehydration of secondary and tertiary alcohols?

A

H2SO4 (catalytic)

3
Q

What is the elimination of water?

A

dehydration

4
Q

What states that the sequence of transition states and reactive intermediates in the mechanism of any reversible reaction must be the same, but in reverse order, for the reverse reaction as for the forward reaction

A

Principle of Microscopic Reversibility

5
Q

Define the principle of microscopic reversibility

A

this principle states that the sequence of transition states and reactive intermediates in the mechanism of any reversible reaction must be the same, but in reverse order, for the reverse reaction as for the forward reaction

6
Q

Describe the ease of acid-catalyzed dehydration of alcohols?

A

o 1° alcohol < 2° alcohol < 3° alcohol (easiest to hardest)

7
Q

How does amount of water determine whether an alkene or alcohol will be formed?

A

• Large amount of water (use of dilute aqueous acid) favor alcohol formation, whereas scarcity of water (use of concentrated acid) or experimental conditions where water is removed (heating the reaction mixture above 100°C) favor alkene formation

8
Q

• When isomeric alkenes are obtained in acid-catalyzed dehydration of an alcohol, which isomer predominates?

A

• When isomeric alkenes are obtained in acid-catalyzed dehydration of an alcohol, the alkene having the greater number of substituents on the double bond (the more stable alkene) generally predominates (Zaitsev’s rule)

9
Q

Define dehydration

A

elimination of water

10
Q

Describe the mechanism behind the Acid-Catalyzed Dehydration of Secondary and Tertiary Alcohols—An E1 Reaction

A

o Step 1: Add a Proton
 Proton transfer from the hydronium ion to the hydroxyl group of the alcohol gives an oxonium ion, which converts –OH, a poor leaving group, into –OH2, a better leaving group
o Step 2: Break a Bond to Give Stable Molecules of Ions
 Breaking of the C—O bond and loss of H2O gives a 2° carbocation intermediate
o Step 3: Take a Proton Away
 Proton transfer from a carbon adjacent to the positively charged carbon to H2O gives the alkene. In this step, the electrons of the C—H sigma bond become the electrons of the pi bond.

11
Q

What is the regiochemistry of an alkene formed from acid-catalyzed dehydration of secondary and tertiary alcohols?

A

Zaitsev

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