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A diol or glycol is a chemical compound containing two hydroxyl groups (-OH groups) [1] Vicinal diols have hydroxyl groups attached to adjacent atoms. Examples of vicinal diol compounds are ethylene glycol and propylene glycol. Geminal diols have hydroxyl groups bonded to the same atom. In general, organic geminal diols readily dehydrate to form a carbonyl group. For example, carbonic acid ((HO)2C=O) is unstable and has a tendency to convert to carbon dioxide (CO2) and water (H2O). Nevertheless, in rare situations the chemical equilibrium is in favor of the geminal diol. For example, when formaldehyde (H2C=O) is dissolved in water the geminal diol (H2C(OH)2), methanediol, is favored.
Examples of diols in which the hydroxyl functional groups are more widely separated include 1,4-butanediol and bisphenol A.
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Synthesis of diols
Because diols are a common functional group arrangement, numerous methods of preparation have been developed.
- Vicinal diols can be produced from the oxidation of alkenes, usually with dilute acidic potassium permanganate, also known as potassium manganate(VII). Using alkaline potassium manganate(VII) produces a colour change from clear deep purple to clear green; acidic potassium manganate(VII) turns clear colourless.
- Osmium tetroxide can similarly be used to oxidize alkenes to vicinal diols.
- hydrogen peroxide reacts with an alkene to the epoxide and then by saponification to the diol for example in the synthesis of trans-cyclohexanediol batch [2] or by microreactor [3]:
- A chemical reaction called Sharpless asymmetric dihydroxylation can be used to produce chiral diols from alkenes using an osmate reagent and a chiral catalyst.
- Another method is the Woodward cis-hydroxylation (cis diol) and the related Prévost reaction (anti diol), depicted below, which both use iodine and the silver salt of a carboxylic acid.
- In the Prins reaction 1,3-diols can be formed in a reaction between an alkene and formaldehyde.
Reactions
- A diol reacts like an alcohol, such as esterification and ether formation.
- Diols such as ethylene glycol are used as co-monomers in polymerization reactions forming polymers including some polyesters and polyurethanes. A different monomer with two identical functional groups, such as a dioyl dichloride or dioic acid is required to continue the process of polymerization through repeated esterification processes.
- In glycol cleavage, the C-C bond in a vicinal diol is cleaved with formation of ketone or aldehyde functional groups.
See also
- Alcohols, chemical compounds with one hydroxyl group
- Triols, chemical compounds with three hydroxyl group
- Polyols, chemical compounds with multiple hydroxyl groups
References
- ^ March, Jerry (1985). Advanced Organic Chemistry, Reactions, Mechanisms and Structure, third Edition, John Wiley & Sons. ISBN 0-471-85472-7.
- ^ trans-cyclohexanediol Organic Syntheses, Coll. Vol. 3, p.217 (1955); Vol. 28, p.35 (1948) http://www.orgsynth.org/orgsyn/pdfs/CV3P0217.pdf.
- ^ Advantages of Synthesizing trans-1,2-Cyclohexanediol in a Continuous Flow Microreactor over a Standard Glass Apparatus Andreas Hartung, Mark A. Keane, and Arno Kraft J. Org. Chem. 2007, 72, 10235-10238 doi:10.1021/jo701758p
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- This page was last modified on 4 October 2008, at 17:59.
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