What is Friedel crafts alkylation reaction ?
When hydrogen atom of benzene ring be substituted by the alkyl group in presence of anhydrous aluminium chloride ( AlCl3 ) catalyst to produced alkyl benzene, then the reaction is is Friedel crafts alkylation reaction.
It is an example of aromatic electrophilic substitution reaction.
Friedel crafts alkylation reaction is a very
important reaction for the preparation of alkyl benzene or many other aromatic compound
with alkyl group.
Catalysts used in Friedel crafts alkylation reaction :
Generally, the best catalyst used in Friedel crafts alkylation reaction is anhydrous Lewis acid aluminium chloride ( AlCl3 ) .
Besides,
another Lewis acid like boron trifluoride ( BF3 ) , anhydrous ferric
chloride ( FeCl3 ) , anhydrous zinc chloride ( ZnCl2 ) is
also used in Friedel crafts alkylation reaction .
Few proton acid , like HF , H2SO4
H3PO4 etc are also used as a catalyst in Friedel crafts
alkylation reaction .
Mechanism of Friedel crafts alkylation reaction:
In Friedel crafts alkylation reaction , the
effective electrophile is R+ . Secondary or tertiary alkyl halide can
form carbocation with anhydrous
aluminium chloride ( AlCl3 ) ,but R+ carbocation does not
form by the reaction of 1áµ’ or methyl halide with AlCl3.
Because, 1áµ’ or primary carbo cation is very much less stable . In that
case the primary complex obtained by the reaction of RX and AlCl3 is used as electrophile .
In Friedel
crafts alkylation reaction , besides alkyl halides , alcohol, alkene are used as alkylating reagent.
In that case , anhydrous AlCl3 and also BF3
, HF or H2SO4
are used as catalys.
Friedel crafts alkylation reaction of benzene
When benzene is react with alkyl halide in presence of anhydrous AlCl3 , The
alkyl substituted benzene is obtained .
Friedel crafts alkylation reaction of benzene is an example of electrophilic substitution reaction. That is the hydrogen atom of benzene be substituted by electrophile .
Here alkyl group act as an electrophile. The reaction mechanism of Friedel crafts alkylation reaction of benzene is shown above .
But few example of Friedel crafts alkylation reaction of benzene are given below.
Friedel crafts alkylation reaction of phenol
When phenol
is react with alkyl halide in presence of anhydrous AlCl3 , The
alkyl substituted phenol is obtained .
The –OH group of phenol is ortho and para
directing .Because –OH group of phenol increase the electron density on ortho and para carbon due its +R effect .
So the electrophile attact in ortho and para position and hence the products obtained are ortho cresol and p-cresol .
So the electrophile attact in ortho and para position and hence the products obtained are ortho cresol and p-cresol .
But
para isomer is the main product . Because, in ortho cresol , a steric hindrance
is operated between – OH and – CH3 group .
Friedel crafts alkylation reaction of anisole
When anisole is react with alkyl halide in presence of anhydrous AlCl3 , The alkyl substituted anisole is obtained . Due to +R effect of
Hence , –OCH3 group of anisole is ortho and para directing , so in this
reaction ortho methoxy toluene and
p-methoxy toluene are obtained .
But para isomer is the main product . Because, in o-methoxy anisole , a steric hindrance is operated between – OCH3 and – CH3 group.
Friedel crafts alkylation reaction of chloro benzene
When chloro
benzene is react with alkyl halide in presence of anhydrous AlCl3 ,
The alkyl substituted chloro benzene is obtained .Chlorine atom have +R effect and also -I effect .
But +R effect is more effective than - I effect . So due to +R effect, the density of electron on ortho and para carbon atom increases.
But +R effect is more effective than - I effect . So due to +R effect, the density of electron on ortho and para carbon atom increases.
Hence ,
–Cl group of chloro benzene is ortho and para directing . So the electrophile attact on ortho and para carbon to give product ortho chloro toluene and p-chloro
toluene .
But para isomer
is the main product . Because, in o-chloro toluene , a steric hindrance is operated between – Cl
and – CH3 group.
Limitation of Friedel crafts alkylation reaction
(I)Friedel crafts alkylation reaction is not eligible for the preparation of alkyl benzene . Because , the alkyl group is a activating group .
They can increase the
density of electron of benzene ring due
to their +I effect .
As a result
, benzene ring becomes more reactive and further under goes Friedel crafts
alkylation reaction . Hence in that case, poly alkylation reaction takes place
.
(II) Friedel crafts alkylation reaction is not suitable for the preparation of long chain alkyl benzene .
For example,
if we use the 1áµ’ alkyl halide with three or more
carbon atom , then the expected carbocation is obtained , under goes
rearrangement reaction and it change into more stable 2áµ’ or 3áµ’ carbocation .
As a result
, the main alkyl benzene obtained must
be contain 2áµ’ or 3áµ’ alkyl group.
( III) Friedel
crafts alkylation reaction is an electrophilic substitution reaction .
Therefore , the benzene ring with strong electron withdrawing group that is
with deactivating group , does not under go Friedel crafts alkylation reaction
.
Because, due to lack of electron density ,the benzene ring have no affinity
toward weak electrophile ( R+) .
For the
above reason , C6H5NO2 , C6H5
COOH , C6H5 COR , C6H5N+(
CH3 )3 compounds does not exhibit Friedel crafts alkylation reaction.
(iv) Vinyl
halide or halo benzene [ vinyl chloride , chloro benzene ] are not used as
alkylating reagent in Friedel crafts alkylation reaction .
Summary:
Summary:
What is Friedel-crafts alkylation reaction?
Friedel
crafts alkylation of benzene
Friedel
crafts alkylation of phenol
Friedel crafts alkylation of anisole
Friedel
crafts alkylation of chloro benzene
Limitation
of Friedel crafts alkylation.
Mechanism
for Friedel crafts alkylation.
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