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Epoxide



  An epoxide is a cyclic ether with only three ring atoms. This ring approximately is an equilateral triangle, i.e. its bond angles are about 60°, which makes it highly strained. The strained ring makes epoxides more reactive than other ethers, especially towards nucleophiles. Simple epoxides are named from the parent compound ethylene oxide or oxirane, such as in chloromethyloxirane. As a functional group epoxides obtain the epoxy prefix such as in the compound 1,2-epoxycycloheptane which can also be called cycloheptene epoxide.

A polymer containing unreacted epoxide units is called a polyepoxide or an epoxy. Epoxy resins are used as adhesives and structural materials. Polymerization of an epoxide gives a polyether, for example ethylene oxide polymerizes to give polyethylene glycol, also known as polyethylene oxide.

Contents

Synthesis

Epoxides are usually created by one of the following reactions:

  • Olefin Peroxidation involves the oxidation of an olefin with a peroxide, usually a peroxyacid like m-CPBA, and proceeds via what is commonly known as the Butterfly Mechanism.[1] It is easiest to consider the oxygen to be an electrophile, and the alkene a nucleophile, although they both operate in that capacity, and the reaction is considered to be concerted (the numbers in the mechanism below are for simplification).

Reactions

Typical epoxide reactions are listed below.

  • Under acidic conditions, the nucleophile attacks the carbon that will form the most stable carbocation, i.e. the most substituted carbon (similar to a halonium ion). Under basic conditions, the nucleophile attacks the least substituted carbon, in accordance with standard SN2 nuclephilic addition reaction process.
  • Hydrolysis of an epoxide in presence of an acid catalyst generates a glycol. The hydrolysis process of epoxides can be considered to be the nucleophilic addition of water to the epoxide under acidic conditions.
  • Reduction of an epoxide with lithium aluminium hydride and water generates an alcohol. This reduction process can be considered to be the nucleophilic addition of hydride (H-) to the epoxide under basic conditions.

See also

References

  1. ^ Bartlett Rec. Chem. Prog 1950, 11 47.
  2. ^ Lower valent tungsten halides. New class of reagents for deoxygenation of organic molecules K. Barry Sharpless, Martha A. Umbreit, Marjorie T. Nieh, Thomas C. Flood J. Am. Chem. Soc.; 1972; 94(18); 6538-6540. Abstract
 
This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Epoxide". A list of authors is available in Wikipedia.
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