Halogenation: Difference between revisions
Undid revision 242591564 by 96.242.156.9 (talk) - unnecessary |
|||
| Line 1: | Line 1: | ||
<blockquote> |
|||
''Not to be confused with [[fluoridation]].'' |
|||
</blockquote> |
|||
'''Halogenation''' is a [[chemical reaction]] that incorporates a [[halogen]] atom into a molecule. More specific descriptions exist that specify the type of halogen: fluorination, chlorination, bromination, and iodination. |
'''Halogenation''' is a [[chemical reaction]] that incorporates a [[halogen]] atom into a molecule. More specific descriptions exist that specify the type of halogen: fluorination, chlorination, bromination, and iodination. |
||
Revision as of 03:35, 5 October 2008
Not to be confused with fluoridation.
Halogenation is a chemical reaction that incorporates a halogen atom into a molecule. More specific descriptions exist that specify the type of halogen: fluorination, chlorination, bromination, and iodination.
In a Markovnikov addition reaction, a halogen like bromine is reacted with an alkene which causes the π-bond to break forming an haloalkane. This makes the hydrocarbon more reactive and bromine as it turns out, is a good leaving group in further chemical reactions such as nucleophilic aliphatic substitution reactions and elimination reactions.
Several main types of halogenation exist, including:
Specific halogenation methods are the Hunsdiecker reaction (from carboxylic acids) and the Sandmeyer reaction (arylhalides).
An example of halogenation can be found in the organic synthesis of the anesthetic halothane from trichloroethylene which involves a high temperature bromination in the second step [1]:
See also
- Haloalkane (Alkyl halide)
- Halogenoarene (Aryl halide)
- Free radical halogenation
- Haloketone
- Electrophilic substitution
References
- ^ Synthesis of essential drugs, Ruben Vardanyan, Victor Hruby; Elsevier 2005 ISBN 0-444-52166-6