Difference between revisions of "Manganate"

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===Uses===
 
===Uses===
Manganates have been used as [[oxidizing agent]]s in [[organic synthesis]]: they will oxidize primary [[alcohol]]s to [[aldehyde]]s and then to [[carboxylic acid]]s, and secondary alcohols to [[ketone]]s.<ref>{{citation | first1 = G. | last1 = Procter | first2 = S. V. | last2 = Ley | first3 = G. H. | last3 = Castle | contribution = Barium Manganate | title = Encyclopedia of Reagents for Organic Synthesis | editor-first = L. | editor-last = Paquette | year = 2004 | publisher = Wiley | location = New York | doi = 10.1002/047084289}}.</ref> [[Barium manganate]] has been used to oxidize [[hydrazone]]s to [[diazo compound]]s.<ref>{{citation | last1 = Guziec | first1 = Frank S., Jr. | last2 = Murphy | first2 = Christopher J. | last3 = Cullen | first3 = Edward R. | title = Thermal and photochemical studies of symmetrical and unsymmetrical dihydro-1,3,4-selenadiazoles | journal = J. Chem. Soc., Perkin Trans. 1 | year = 1985 | pages = 107–13 | doi = 10.1039/P19850000107}}.</ref>
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Manganates, particularly the insoluble [[barium manganate]], BaMnO<sub>4</sub>, have been used as [[oxidizing agent]]s in [[organic synthesis]]: they will oxidize primary [[alcohol]]s to [[aldehyde]]s and then to [[carboxylic acid]]s, and secondary alcohols to [[ketone]]s.<ref>{{citation | first1 = G. | last1 = Procter | first2 = S. V. | last2 = Ley | first3 = G. H. | last3 = Castle | contribution = Barium Manganate | title = Encyclopedia of Reagents for Organic Synthesis | editor-first = L. | editor-last = Paquette | year = 2004 | publisher = Wiley | location = New York | doi = 10.1002/047084289}}.</ref><ref>{{citation | title = Barium Manganate. A Versatile Oxidant in Organic Synthesis | first1 = Habib | last1 = Firouzabadi | first2 = Zohreh | last2 = Mostafavipoor | journal = Bull. Chem. Soc. Jpn. | volume = 56 | issue = 3 | year = 1983 | pages = 914–17 | doi = 10.1246/bcsj.56.914}}.</ref> Barium manganate has also been used to oxidize [[hydrazone]]s to [[diazo compound]]s.<ref>{{citation | last1 = Guziec | first1 = Frank S., Jr. | last2 = Murphy | first2 = Christopher J. | last3 = Cullen | first3 = Edward R. | title = Thermal and photochemical studies of symmetrical and unsymmetrical dihydro-1,3,4-selenadiazoles | journal = J. Chem. Soc., Perkin Trans. 1 | year = 1985 | pages = 107–13 | doi = 10.1039/P19850000107}}.</ref>
  
 
===Disproportionation===
 
===Disproportionation===

Revision as of 19:55, 26 June 2010

In inorganic nomenclature, a manganate is any negatively charged molecular entity with manganese as the central atom. However, the name is usually used to refer to the tetraoxidomanganate(2−) anion, MnO2−4, also known as manganate(VI) because it contains manganese in the +6 oxidation state. Manganates are the only known manganese(VI) compounds.[1]

Manganate(VI)

The manganate(VI) ion is tetrahedral, similar to sulfate or chromate: indeed, manganates are often isostructural with sulfates and chromates. As a d1 ion, it is paramagnetic. Manganates are dark green in colour, with a visible absorption maximum of λmax = 606 nm (ε = 1710 dm3 mol−1 cm−1).[2][3]

Preparation

Sodium and potassium manganates are usually prepared in the laboratory by stirring the equivalent permanganate in a concentrated solution (5–10 M) of the hydroxide for 24 hours.[2][4]

4 MnO4 + 4 OH4 MnO2−4 + 2 H2O + O2

Potassium manganate is prepared industrially, as an intermediate to potassium permanganate, by dissolving manganese dioxide in molten potassium hydroxide with potassium nitrate or air as the oxidizing agent.[1]

2 MnO2 + 4 OH + O22 MnO2−4 + 2 H2O

Uses

Manganates, particularly the insoluble barium manganate, BaMnO4, have been used as oxidizing agents in organic synthesis: they will oxidize primary alcohols to aldehydes and then to carboxylic acids, and secondary alcohols to ketones.[5][6] Barium manganate has also been used to oxidize hydrazones to diazo compounds.[7]

Disproportionation

Manganates are unstable towards disproportionation in all but the most alkaline of aqueous solutions.[1] The ultimate products are permanganate and manganese dioxide, but the kinetics are complex and the mechanism may involved protonated and/or manganese(V) species.[8][9]

Manganic acid

Manganic acid cannot be formed because of its rapid disproportionation. However, its second acid dissociation constant has been estimated by pulse radiolysis techniques:[10]

HMnO4 MnO2−4 + H+   pKa = 7.4 ± 0.1

Manganate(V)

The manganate(V) anion, MnO3−4, known trivially as hypomanganate and systematically as tetraoxidomanganate(3−), is a bright blue species[11] with a visible absorption maximum of λmax = 670 nm (ε = 900 dm3 mol−1 cm−1).[2][3] It is unstable towards dispropotionation to manganate(VI) and manganese dioxide, although the reaction is slow in very alkaline solution (c(OH) = 5–10 mol dm−3).[11]

Hypomanganates may be prepared by the careful reduction of manganates with sulfite,[11] hydrogen peroxide[12] or mandelate.[3] Only potassium hypomanganate has been studied to any significant extent. Hypomanganic acid cannot be formed because of its rapid disproportionation, but its third acid dissociation constant has been estimated by pulse radiolysis techniques:[10]

HMnO2−4 MnO3−4 + H+   pKa = 13.7 ± 0.2

Manganate(IV)

The manganate(IV) anion has been prepared by pulse radiolysis techniques.[10][12] It is mononuclear in dilute solution, and shows a strong absorption in the ultraviolet and a weaker absorption at 650 nm.[10]

References

  1. 1.0 1.1 1.2 Cotton, F. Albert; Wilkinson, Geoffrey Advanced Inorganic Chemistry, 4th ed.; Wiley: New York, 1980; p 746. ISBN 0-471-02775-8.
  2. 2.0 2.1 2.2 Carrington, A.; Symons, M. C. R. Structure and reactivity of the oxy-anions of transition metals. Part I. The manganese oxy-anions. J. Chem. Soc. 1956, 3373–80. DOI: 10.1039/JR9560003373.
  3. 3.0 3.1 3.2 Lee, Donald G.; Chen, Tao Reduction of manganate(VI) by mandelic acid and its significance for development of a general mechanism of oxidation of organic compounds by high-valent transition metal oxides. J. Am. Chem. Soc. 1993, 115 (24), 11231–36. DOI: 10.1021/ja00077a023.
  4. Nyholm, R. S.; Woolliams, P. R. Manganates(VI). Inorg. Synth. 1986, 11, 56–61.
  5. Procter, G.; Ley, S. V.; Castle, G. H. Barium Manganate. In Encyclopedia of Reagents for Organic Synthesis; Paquette, L., Ed.; Wiley: New York, 2004. DOI: 10.1002/047084289.
  6. Firouzabadi, Habib; Mostafavipoor, Zohreh Barium Manganate. A Versatile Oxidant in Organic Synthesis. Bull. Chem. Soc. Jpn. 1983, 56 (3), 914–17. DOI: 10.1246/bcsj.56.914.
  7. Guziec, Frank S., Jr.; Murphy, Christopher J.; Cullen, Edward R. Thermal and photochemical studies of symmetrical and unsymmetrical dihydro-1,3,4-selenadiazoles. J. Chem. Soc., Perkin Trans. 1 1985, 107–13. DOI: 10.1039/P19850000107.
  8. Sutter, Joan H.; Colquitt, Kevin; Sutter, John R. Kinetics of the disproportionation of manganate in acid solution. Inorg. Chem. 1974, 13 (6), 1444–46. DOI: 10.1021/ic50136a037.
  9. Sekula-Brzezińska, K.; Wrona, P. K.; Galus, Z. Rate of the MnO4/MnO42− and MnO42−/MnO43− electrode reactions in alkaline solutions at solid electrodes. Electrochim. Acta 1979, 24 (5), 555–63. DOI: 10.1016/0013-4686(79)85032-X.
  10. 10.0 10.1 10.2 10.3 Rush, J. D.; Bielski, B. H. J. Studies of Manganate(V), -(VI), and -(VII) Tetraoxyanions by Pulse Radiolysis. Optical Spectra of Protonated Forms. Inorg. Chem. 1995, 34 (23), 5832–38. DOI: 10.1021/ic00127a022.
  11. 11.0 11.1 11.2 Greenwood, Norman N.; Earnshaw, A. Chemistry of the Elements; Pergamon: Oxford, 1984; pp 1221–22. ISBN 0-08-022057-6.
  12. 12.0 12.1 Lee, Donald G.; Chen, Tao Oxidation of hydrocarbons. 18. Mechanism of the reaction between permanganate and carbon-carbon double bonds. J. Am. Chem. Soc. 1989, 111 (19), 7534–38. DOI: 10.1021/ja00201a039.
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