Download Lab 6

Acetylation of a Hydroxyl Group: Acetylsalicylic Acid
(Aspirin) from Salicylic Acid
Introduction
An acetyl group is a methyl group bonded to a carbonyl group. It is a
special case of an acyl group, which is any R group bonded to a carbonyl
group. Figure 1 shows the structures of several acyl groups, including the
acetyl group.
O
O
O
CH3C
C
CH3CH2C
acetyl group
benzoyl group
propanoyl group
Figure 1. Acyl groups.
The name of an acyl group is derived from the corresponding
carboxylic acid. The acetyl group is found in acetic acid. The name acetyl is
derived from acetic by changing the ic in acetic to yl in acetyl. Both acetic
and acetyl are common names. Likewise, the IUPAC name ethanoic acid is
changed to ethanoyl by changing the ic in ethanoic to yl in ethanoyl. Figure
2 shows the relationships between the name and structure of the acid and the
acyl group.
O
CH3C OH
remove OH
acetic acid (common)
ethanoic acid (IUPAC)
O
CH3C
acetyl group (common)
ethanoyl group (IUPAC)
Figure 2. Common and IUPAC nomenclature.
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Acyl groups are found in carboxylic acids and acid derivatives. Acid
halides get their names from the acyl group. Figure 3 shows the structures
and names of some common acyl chlorides.
O
O
O
C Cl
CH3C Cl
acetyl chloride (common)
ethanoyl chloride (IUPAC)
benzoyl chloride
CH3CH2CH2C Cl
butanoyl chloride
Figure 3. Acyl chlorides.
Acid anhydrides or simply anhydrides are acid derivatives that contain
two acyl group joined by an oxygen atom. When carboxylic acids are
pyrolyzed (i.e., heated strongly), they produce acid anhydrides by a
condensation reaction (overall loss of water from two molecules). Figure 4
shows the equation for the reaction that produces acetic anhydride from
acetic acid.
O
2 CH3C OH
acetic acid (common)
ethanoic acid (IUPAC)

O
O
CH3C O CCH3
acetic anhydride (common)
ethanoic anhydride (IUPAC)
Figure 4. Acetic anhydride from acetic acid.
The name of an anhydride is the name of the acid from which it is
derived followed by anhydride. For example, acetic anhydride is the
anhydride from acetic acid, and propanoic anhydride is the anhydride from
propanoic acid.
When an acyl group is transferred from one chemical species to
another, the reaction is referred to as an acylation reaction. The FriedelCrafts acylation reaction is an example of such a reaction applied to arenes.
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Acid halides and anhydrides are useful as reagents for transferring an acyl
group to a heteroatom in another organic compound. The groups shown in
black in Figures 3 and 4 are acyl groups that can be transferred in acylation
reactions. Later, we shall consider the acylation of a nitrogen atom of an
amine. Now, we shall consider the acylation of an oxygen atom in a
hydroxyl group found in either an alcohol or phenol. Figure 5 shows the
structures of alcohols and phenols. A phenol contains a hydroxyl group
directly bonded to an arene ring such as benzene. An alcohol contains a
hydroxyl group bonded to a non-aromatic carbon atom, normally an sp3hybridized carbon atom.
OH
OH
CH3CH2OH
Cl
phenol
m-chlorophenol
phenols
Figure 5. Phenols and alcohols.
CH2OH
ethanol
benzyl alcohol
alcohols
The acylation of a hydroxyl group of either a phenol or an alcohol
may be accomplished by the use of either an acid halide (Figure 3) or an acid
anhydride (Figure 4). Figure 6 shows examples of acylation reactions in
which the acyl group is the acetyl group. Such reactions are called
acetylation reactions. These reactions involve the transfer of an acetyl acyl
group to an oxygen atom (i.e., the substitution of an acetyl group for an H
atom bonded to oxygen). When alcohols or phenols are acylated, the
products are esters, which are derivatives of carboxylic acids. When alcohols
or phenols are acylated with acetyl chloride or acetic anhydride, the ester is
an acetate ester, because the acid from which the ester is derived is acetic
acid. Thus, the use of acetic anhydride or acetyl chloride is a good way to
convert an alcohol or phenol to an acetate ester.
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O
O
CH3CH2OH
ethanol
an alcohol
+
CH3C Cl
CH3CH2OCCH3
byproduct
ethyl acetate
an ester
actyl chloride
HCl
+
O
O
OH
+
phenol
O
CH3C O CCH3
acetic anhydride
O
OCCH3
+
CH3C O H
phenyl acetate
an ester
byproduct
Figure 6. Acetylation reactions.
Mechanism of Acetylation
Figure 7 shows the mechanism for the acetylation of ethanol by acetyl
chloride.
O
CH3CH2OH
+
CH3C Cl
OH
O+
+
-H + H
CH3C Cl
CH3C Cl
Step
2
O
O+
CH
CH
3
2
CH3CH2 H
Step1
Step 3
O
O
Step 4
HCl
+
CH3CH2OCCH3
CH3C
O
CH3CH2
H
+
Cl-
Figure 7. Mechanism of acetylation of an alcohol with acetyl chloride.
In Step 1, a pair of non-bonded electrons from the alcohol oxygen
atom forms a bond with the carbonyl group of the acid chloride. In Step 2,
the proton moves from one oxygen atom to the other, changing the di-ion
into an uncharged molecule. Note, the combination of Steps 1 and 2 is an
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addition reaction that you might predict for a carbonyl group. The product of
Step 2 is a hemiacetal (i.e., a carbon is bonded to two oxygen atoms; one
oxygen atom is in a hydroxyl group and the other is an ether). The
hemiacetal reforms the carbonyl group in Step 3 with the loss of the chloride
ion. The intermediate product of Step 3 is deprotonated by the chloride ion
to produce the acetate ester and hydrogen chloride.
The mechanism of an acetylation by acetic anhydride is very similar
to the mechanism shown in Figure 6. The difference is that the leaving group
is the acetate ion instead of the chloride ion, and the byproduct of the overall
reaction is acetic acid instead of hydrochloric acid. The product is acetylated
(i.e., it now has an acetyl group that it did not have before), and the product
is an acetate ester.
The Experimental Reaction
Salicylic acid is o-hydroxybenzoic acid; it is a phenol and a
carboxylic acid because it contains a hydroxyl group bonded to an arene and
a carboxyl group. The hydroxyl group can be acylated by acetic anhydride to
convert the hydroxyl group into an acetate ester. The acid group remains
unchanged. Thus, salicylic acid becomes acetylsalicylic acid. Figure 8 shows
the equation for the reaction you will perform in the lab. Acetylsalicylic acid
is also known by the common name of aspirin.
O
COH
+
OH
salicylic acid
O O
CH3COCCH3
acetic anhydride
O
COH
+
OCCH3
O
acetylsalicylic acid
O
CH3COH
acetic acid
Figure 8. Acetylation of salicylic acid.
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Procedure
1. Prepare a hot-water bath by adding about 50-mL tap water to a 100-mL
beaker and warm the beaker to about 90 oC on a hot plate.
2. Weigh 0.14-g salicylic acid on a creased weighing paper, record the exact
mass in your lab notebook, and transfer the solid into a small test tube.
3. Add one drop of 85% phosphoric acid (H3PO4) and six drops of acetic
anhydride to the test tube containing the salicylic acid.
4. Thoroughly mix the contents of the test tube and add a tiny boiling chip to
the test tube.
5. Immerse the test tube in the hot-water bath at about 90 oC for five
minutes.
6. Remove the test tube from the hot-water bath and carefully add 10 drops
of water to hydrolyze any un-reacted acetic anhydride to water-soluble
acetic acid.
The hydrolysis reaction is an exothermic reaction.
7. Allow the test tube to cool to room temperature and then place it in an icewater bath and leave it there until crystallization of acetylsalicylic acid is
complete (i.e., you do not observe the formation of new crystals).
8. Collect the crystals on a Hirsh funnel.
9. Weigh the dry crystals and show them to the instructor who will tell you
what to do next.
10. Clean and return all equipment to their storage locations. Check the
balance area. Turn off all balances and return any chemicals to their original
locations.
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Questions O-Acylation
Student last name_________________________, First name_______________________
1. Write a general equation for the preparation of an acid anhydride from a
carboxylic acid.
2. Write an equation for the hydrolysis of acetic anhydride.
3. Write an equation for the reaction between p-chlorophenol and acetyl
chloride.
4. Write an equation for the reaction between benzyl alcohol and acetic
anhydride.
5. Draw the structures of each of the following groups: isobutyl group, butyl
group, t-butyl group, and sec-butyl group.
6. When a member of either the alcohol or phenol family of compounds is
acylated, what family of organic compounds is formed? ________________
7. Write an equation for the preparation of phenyl acetate, starting with
phenol.
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8. Write an equation for the acetylation of ethanol and name the products.
9. Why must acetyl chloride and acetic anhydride be stored in a water-free
environment?
10. Show the mechanism for the acetylation of salicylic acid with acetic
anhydride.
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