Alkenes Part PDF

Summary

This document covers the topic of alkenes, including their continuation, dehydration of alcohols, various reactions, and addition reactions. It also discusses major concepts, regiochemistry, and stereochemistry. The document concludes with quizzes and example problems.

Full Transcript

Alkenes
continuation
 2- Dehydration of Alcohols

Heating alcohols with strong protonic acids like H2SO4, H3PO4
will generate alkenes.
The role of acid is to catalyze the removal of (-OH) group in the
form of H2O molecule.
The (-OH) anion is Poor leaving group, because it is highly basic
anion, while H2O is not basic and hence can be easily removed
(Good leaving group).
# The experimental conditions are related to the alcohol structure.

H H H H
concd
H C C H C C + H2O
H2SO4
H O H 180oC H H
Ethanol (a 1o alcohol)

OH
85% H3PO4
o + H2O
165-170 C

Cyclohexanol Cyclohexene (80%)

CH3 CH2
20% aq. H2SO4
H3C C OH o C + H2O
85 C H3C CH3
CH3
tert-Butyl alcohol 2-Methylpropene (84%)
Acid-Catalyzed Alcohol Dehydration occurs by E1
mechanism
E1 is a unimolecular reaction (involves one species =
alkyloxonium ion), and it is a two steps reaction.
The leaving group first leaves, generating a carbocation
intermediate, which then loses a proton in a separate step.
 Why the 3ry alcohol gives alkene easier than
2ry, than 1ry?
The order of the stability of the carbocation intermediate is as
follows:
R R H H
C+ > C+ > C+ > C+
R R R H R H H H
3o > 2o > 1o > Methyl

??? Due to the electron donation properties of the alkyl group, 3ry
(3 alkyl = 3 +I), 2ry (2 alkyl = 2 +I) & 1ry (1 alkyl = 1 +I).

Due to the lower stability of primary carbocations, primary
alcohols dehydration proceed via E2 mechanism.
Primary alcohol dehydration via E2 mechanism
 What if more than one product can be formed?

In alcohol dehydration the major product will always be Zaitsev
product (the more substituted alkene).
Alkene synthesis by debromination of vicinal
dibromides.

X
C C C C
X X X
A vic-dihalide A gem-dihalide
Mechanism of debromination is E2
To Summarize:
 Quiz
Draw structural formulas for the alkenes formed on
dehydrohalogenation of the following haloalkanes. Predict which
alkene is the major product.
 Each of the following alcohols has been subjected to acid-
catalyzed dehydration & yields a mixture of two isomeric
alkenes. Identify the two alkenes & predict which one is the
major?
 Reactions Of Alkenes

1] Addition to the C=C (Electrophilic addition).

2] Miscellaneous reactions.
 1- Addition to the C=C.
Addition reactions (opposite of elimination) are characterized by
two groups adding across a double bond. In the process, the
double bond is destroyed, and we say that the two groups (X and
Y) have “added” across the double bond.
 Important Concepts & Terminology
Characteristics of the double bond:
1) π bond is weaker than σ bond so the addition is energetically
favorable.
2) The C=C bond acts as a nucleophile, so it can attack any
electrophile.

C C + X Y C C
X Y
 bond  bond 2 bonds

Bonds broken Bond formed
 Regiochemistry:

Regiochemistry refers to the positioning of the H and the Br in
the product: which side gets the H and which side gets the Br?

Regiochemistry becomes irrelevant when:
 Stereochemistry:
Suppose that we have an anti-Markovnikov addition of H and OH
across this alkene:

How do these group add on the double bond? (from above, from
below? In the same direction or opposite?), in order to show that
we need first to show what is above & what is below?
 If both groups added on the same side of the plane (either from
above the plane or from below the plane), we will call this a syn
addition:

If each group added on opposite side of the plane, we would
call this an anti addition:
 We see that there are two products that arise from a syn
addition, and two products that arise from an anti addition:
 1- Hydrogenation of alkenes (H-H addition)
A] General Notes:
The process of adding hydrogen to an alkene is a reduction.
Without a catalyst the reaction does not take place at an
appreciable rate (Catalytic hydrogenation).
The most commonly used catalysts for hydrogenation (finely
divided platinum, nickel, palladium) apparently serve to adsorb
hydrogen molecules on their surface.
B] Mechanism:

H H H H
H3C C C H H
CH3 H3C C C CH H3C C
3 C CH
H H H H Syn H H 3
adsorbtion T.S
addn Alkane(Butane)
Ni crystal Ni crystal

C] Regiochemistry:
Irrelevant as we are adding 2 H.

D] Stereochemistry:
Syn addition.
 2- Addition of H-X to the double bond
(Hydrohalogenation)
A] General Notes:
Hydrogen halides (HI, HBr, HCl, and HF) add to the double bond of
alkenes.

The order of reactivity of the HX is HI > HBr > HCl > HF (??)
B] Mechanism:
C] Regiochemistry:
Since we are adding two different atoms, regioselectivity arises if
we have an asymmetrical alkene.

The regiochemistry will be determined by the preference for the
reaction to proceed via the more stable carbocation intermediate.
Addition of HX gives Markovnikov product.
D] Hydrohalogenation of alkenes to give anti-Markovnikov
product:
This anti-Markovnikov addition occurs only when HBr is used in
the presence of peroxides and does not occur significantly with
HF, HCl, and HI even when peroxides are present.
HBr addition between Markovnikov & anti-
Markovnikov
 Quiz
Draw the product(s) for each of the following reactions (Try the mechanism at
home):