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Reaction of Alcohols with
other Halogenating agents (SOCl2, PX3)
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Chapter 15:
Alcohols, Diols and Thiols
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Reaction of Alcohols with
other Halogenating agents (SOCl2, PX3)
(review of Chapter 4)
Reaction type: Nucleophilic
Substitution (SN1 or SN2)
Summary:
- Alcohols can also be
converted to alkyl chlorides using thionyl chloride, SOCl2, or
phosphorous trichloride, PCl3.
- Alkyl bromides can be
prepared in a similar reaction using PBr3.
- Used mostly for 1o
and 2o ROH
- In each case a base
is used to "mop-up" the acidic by-product.
- Common bases are triethylamine,
Et3N, or pyridine, C6H5N.
- In each case the -OH
reacts first as a nucleophile, attacking the electrophilic center of the halogenating
agent.
- A displaced halide ion
then completes the substitution displacing the leaving group.
- Note that it is not
-OH that leaves, but a much better leaving group.
- The advantage of these
reagents is in that the reaction is not under the strongly acidic conditions
like using HCl or HBr.
Related Reactions