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(Top) 1 Synthesis 1.1 Stability 2 Uses 3 See also 4 References

Dimethyldioxirane

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Dimethyldioxirane
Names


Carbon, C Hydrogen, H Oxygen, O
IUPAC name 3,3-Dimethyldioxirane
Other names DMDO Monoperoxyacetone, Murray's reagent
Identifiers
CAS Number	74087-85-7^Y
3D model (JSmol)	Interactive image
ChemSpider	103073^Y
PubChem CID	115197
UNII	R5RAT196DJ^Y
CompTox Dashboard (EPA)	DTXSID90224990
InChI InChI=1S/C3H6O2/c1-3(2)4-5-3/h1-2H3^Y Key: FFHWGQQFANVOHV-UHFFFAOYSA-N^Y InChI=1/C3H6O2/c1-3(2)4-5-3/h1-2H3 Key: FFHWGQQFANVOHV-UHFFFAOYAF
SMILES CC1(OO1)C
Properties
Chemical formula	C₃H₆O₂
Molar mass	74.08 g/mol
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa). Y verify (what is ^YN ?) Infobox references

Dimethyldioxirane (DMDO) is the organic compound with the formula (CH₃)₂CO₂.^[1]^[2] It is the dioxirane derived from acetone and can be considered as a monomer of acetone peroxide. It is a powerful selective oxidizing agent that finds some use in organic synthesis. It is known only in the form of a dilute solution, usually in acetone, and hence the properties of the pure material are largely unknown.^[3]

Synthesis

[edit]

DMDO is not commercially available because of its instability. DMDO can be prepared as dilute solutions (~0.1 M) by treatment of acetone with potassium peroxymonosulfate KHSO
₅, usually in the form of Oxone (2KHSO₅·KHSO₄·K₂SO₄).^[4]

The preparation of DMDO is rather inefficient (typical yields < 3%) and typically only yields a relatively dilute solution in acetone (only up to approximately 0.1 M). This is tolerable as preparation uses inexpensive substances: acetone, sodium bicarbonate, and potassium peroxymonosulfate (commercially known as "oxone"). The solution can be stored at low temperatures and its concentration may be assayed immediately prior to its use.

The more active compound methyl(trifluoromethyl)dioxirane (H
₃C)(F
₃C)CO
₂ can be similarly prepared from methyl trifluoromethyl ketone.

Stability

[edit]

Cold solutions (−10 to −20 °C) are stable for days. Decomposition is accelerated by light and heavy metals.^[3]

Uses

[edit]

DMDO is most commonly used for the oxidation of alkenes to epoxides. One advantage of using DMDO is that the only byproduct of oxidation is acetone, a fairly innocuous and volatile compound. DMDO oxidations are particularly mild, sometimes allowing oxidations which might not otherwise be possible.

Despite its high reactivity, DMDO displays good selectivity for electron-rich olefins. DMDO will also oxidize several other functional groups. For example, DMDO will oxidize primary aminestonitro compounds and sulfidestosulfoxides. In some cases, DMDO will even oxidize unactivated C-H bonds:

DMDO can also be used to convert nitro compounds to carbonyl compounds (Nef reaction).^[5]

References

[edit]

^ "Robert W. Murray Biography". University of Missouri–St. Louis. Retrieved 14 October 2015.

^ Murray, Robert W. (July 1989). "Chemistry of dioxiranes. 12. Dioxiranes". Chemical Reviews. 89 (5): 1187–1201. doi:10.1021/cr00095a013.

^ ^a ^b Crandall, J. K.; Curc, R; D'Accolti, L; Fusco, C (15 Oct 2005). "Dimethyldioxirane". E-EROS Encyclopedia of Reagents for Organic Synthesis. doi:10.1002/047084289X.rd329.pub2. ISBN 0471936235.

^ Robert W. Murray and Megh Singh (1988). "Synthesis of epoxides using dimethyldioxirane]: trans-stilbene oxide". Organic Syntheses; Collected Volumes, vol. 9, p. 288.

^ Adam, Waldemar; Makosza, Mieczyslaw; Saha-Möller, Chantu R.; Zhao, Cong-Gui (1998). "A Mild and Efficient Nef Reaction for the Conversion of Nitro to Carbonyl Group by Dimethyldioxirane (DMD) Oxidation of Nitronate Anions". Synlett. 1998 (12): 1335–1336. doi:10.1055/s-1998-1947.

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