Lead(IV) acetate

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Lead(IV) acetate
Systematic name	Lead(IV) acetate
Other names	Lead tetraacetate
Molecular formula	Pb(C2H3O2)4
Molar mass	443.38 g/mol
CAS number	[546-67-8]
Density	2.23 g/cm3
Solubility (water)	hydrolysis
Melting point	175 - 180C °C
Boiling point	decomp
Disclaimer and references

Lead(IV) acetate or lead tetraacetate is a chemical compound with chemical formula Pb(C₂H₃O₂)₄ and is a lead salt of acetic acid. It is commercially available often stabilized with acetic acid.

It can be prepared by reaction of red lead with acetic acid ^[1] The other main lead acetate is Lead(II) acetate.

[edit] Reagent in organic chemistry

Lead tetraacetate is a strong oxidizing agent, a source of acetyloxy groups and a general reagent for the introduction of lead into organolead compounds. Some of its many uses in organic chemistry:

• acetoxylation of benzylic, allylic and α-oxygen ether C-H bonds, for example the photochemical conversion of dioxane to 1,4-dioxene through the 2-Acetoxy-1,4-dioxane intermediate ^[2] and the conversion of α-pinene to verbenone ^[3]
• oxidation of hydrazones to diazo compounds for example that of hexafluoroacetone hydrazone to bis(trifluoromethyl)diazomethane ^[4]
• aziridine formation, for example the reaction of N-aminophthalimide and stilbene ^[5]
• cleavage of 1,2-diols to the corresponding aldehydes or ketones often replacing ozonolysis, for instance the oxidation of di-n-butyl d-tartrate to n-butyl glyoxylate ^[6]
• reaction with alkenes to γ-lactones
• oxidation of alcohols carrying a δ-proton to cyclic ethers ^[7].
• Oxidative cleavage of certain allyl alcohols in conjunction with ozone ^{[8] [9]} :

• conversion of acetophenones to phenyl acetic acids ^[10]

[edit] External links

• Data sheet commercial supplier Link
• Data sheet commercial supplier Link

• Links to external chemical sources

[edit] References

1. ^ Source: designer-drugs.com Link.
2. ^ Organic Syntheses, Vol. 82, p.99 (2005) Article.
3. ^ Organic Syntheses, Coll. Vol. 9, p.745 (1998); Vol. 72, p.57 (1995) Article
4. ^ Organic Syntheses, Coll. Vol. 6, p.161 (1988); Vol. 50, p.6 (1970) Article.
5. ^ Organic Syntheses, Coll. Vol. 6, p.56 (1988); Vol. 55, p.114 (1976) Link
6. ^ Organic Syntheses, Coll. Vol. 4, p.124 (1963); Vol. 35, p.18 (1955) Article.
7. ^ M B Smith, J March. March's Advanced Organic Chemistry (Wiley, 2001) (ISBN 0-471-58589-0)
8. ^ O3/Pb(OAc)4: a new and efficient system for the oxidative cleavage of allyl alcohols E.J. Alvarez-Manzaneda R. Chahboun , M.J. Cano, E. Cabrera Torres, E. Alvarez, R. Alvarez-Manzaneda, b, A. Haidour and J.M. Ramos López Tetrahedron Letters Volume 47, Issue 37 , 11 September 2006, Pages 6619-6622 DOI:10.1016/j.tetlet.2006.07.020
9. ^ Conversion of 1-allyl-cyclohexanol to cyclohexanone, in the proposed reaction mechanism the allyl group is first converted to a trioxalane according to conventional ozonolysis which then interacts with the alkoxy lead group
10. ^ synthesis; EN; 2; 1981; 126-127.