Chromium(II) acetate

Chromium(II) acetate
Chromium(II) acetate
IUPAC name
Chromium(II) acetate hydrate
Other names
chromous acetate,
chromium diacetate,
Chromium (II) Ethanoate
Identifiers
CAS number 14976-80-8 YesY
PubChem 120304
ChemSpider 107397 YesY
RTECS number AG3000000
Jmol-3D images Image 1
Properties
Molecular formula C8H16Cr2O10
Molar mass 376.2 g/mol
Appearance brick-red solid
Density 1.79 g/cm3
Melting point

dehydrates >100C
Solubility in water soluble in hot water, MeOH
Structure
Crystal structure monoclinic
Coordination
geometry		 octahedral
counting the Cr-Cr bond
Molecular shape quadruple Cr--Cr bond
Dipole moment 0 D
Hazards
Main hazards could react exothermically in air
Related compounds
Related compounds Rh2(OAc)4(H2O)2
Cu2(OAc)4(H2O)2, molybdenum(II) acetate
 YesY acetate (verify) (what is: YesY/N?)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Chromium(II) acetate hydrate, also known as chromous acetate, is the coordination compound with the formula Cr2(CH3CO2)4(H2O)2. This formula is commonly abbreviated Cr2(OAc)4(H2O)2. This red-coloured compound features a quadruple bond. The preparation of chromous acetate once was a standard test of the synthetic skills of students due to its sensitivity to air and the dramatic colour changes that accompany its oxidation. It exists as the dihydrate and the anhydrous forms.

Cr2(OAc)4(H2O)2 is a reddish diamagnetic powder, although diamond-shaped tabular crystals can be grown. Consistent with the fact that it is non-ionic, Cr2(OAc)4(H2O)2 exhibits poor solubility in water and methanol.

chromium(II) acetate (aqueous solution)

Contents

Structure

The Cr2(OAc)4(H2O)2 molecule contains two atoms of chromium, two ligated molecules of water, and four monoanionic acetate ligands. The coordination environment around each chromium atom consists of four oxygen atoms (one from each acetate ligand) in a square, one water molecule (in an axial position), and the other chromium atom (opposite the water molecule), giving each chromium centre an octahedral geometry. The chromium atoms are joined together by a quadruple bond, and the molecule has D4h symmetry (ignoring the position of the hydrogen atoms). The same basic structure is adopted by Rh2(OAc)4(H2O)2 and Cu2(OAc)4(H2O)2, although these species do not have such short M---M contacts.[1]

The quadruple bond between the two chromium atoms arises from the overlap of four d-orbitals on each metal with the same orbitals on the other metal: the z2 orbitals overlap to give a sigma bonding component, the xz and yz orbitals overlap to give two pi bonding components, and the xy orbitals give a delta bond. This quadruple bond is also confirmed by the low magnetic moment and short intermolecular distance between the two atoms of 236.2±0.1 picometers.The Cr-Cr distances are even shorter, 184 pm being the record, when the axial ligand is absent or the carboxylate is replaced with isoelectronic nitrogenous ligands.[2]

History

Eugene Peligot first reported a chromium(II) acetate in 1844. His material was apparently the dimeric Cr2(OAc)4(H2O)2.[3] The unusual structure, as well as that of copper(II) acetate, was uncovered in 1951.[4]

Preparation

An aqueous solution of a Cr(III) compound is first reduced to the chromous state using zinc.[5] The resulting blue solution is treated with sodium acetate, which results in the rapid precipitation of chromous acetate as a bright red powder.

2 Cr3+ + Zn → 2 Cr2+ + Zn2+
2 Cr2+ + 4 OAc- + 2 H2O → Cr2(OAc)4(H2O)2

The synthesis of Cr2(OAc)4(H2O)2 has been traditionally used to test the synthetic skills and patience of inorganic laboratory students in universities because the accidental introduction of a small amount of air into the apparatus is readily indicated by the discoloration of the otherwise bright red product.[6] An alternative route to related chromium(II) carboxylates starts with chromocene:

4 HO2CR + 2 Cr(C5H5)2 → Cr2(O2CR)4 + 4 C5H6

The advantage to this method is that it provides anhydrous derivatives.

Because it is so easily prepared, Cr2(OAc)4(H2O)2 is often used as a starting material for other, chromium(II) compounds. Also many analogues have been prepared using other carboxylic acids in place of acetate and using different bases in place of the water.

Applications

Cr2(OAc)4(H2O)2 is used occasionally to dehalogenate organic compounds such as α-bromoketones and chlorohydrins.[7] The reactions appear to proceed via 1e- steps, and rearrangement products are sometimes observed. Because the molecule contains Cr in a +2 oxidation state it is a good reducing agent. For this reason it will reduce the O2 found in air, and so can be used as an oxygen scrubber.

Many other applications exist, including those in the polymer industry.[8]

References

  1. ^ Cotton, F. A.; Walton, R. A. “Multiple Bonds Between Metal Atoms” Oxford (Oxford): 1993. ISBN 0-19-855649-7.
  2. ^ Cotton, F. A.; Hillard, E.A.; Murillo, C. A.; Zhou, H.-C. (2000). "After 155 Years, A Crystalline Chromium Carboxylate with a Supershort Cr-Cr Bond". J. Am. Chem. Soc. 122 (2): 416–417. doi:10.1021/ja993755i. 
  3. ^ Peligot, E. C. R. Acad. Sci. 1844, volume 19, page 609ff. (b) Peligot, E. Ann. Chim. Phys. 1844, volume 12, pages 528ff.
  4. ^ van Niekerk, J. N. Schoening, F. R. L. (1953). "X-Ray Evidence for Metal-to-Metal Bonds in Cupric and Chromous Acetate". Nature 171 (4340): 36–37. doi:10.1038/171036a0. 
  5. ^ Ocone, L.R.; Block, B.P. (1966). "Anyhdrous Chromium(II) Acetate, Chromium(II) Acetate 1-Hydrate, and Bis(2,4-Pentanedionato)chromium(II)". Inorg. Synth.. Inorganic Syntheses 8: 125–129. doi:10.1002/9780470132395.ch33. ISBN 9780470132395. 
  6. ^ Jolly, W. L. (1970). The Synthesis and Characterization of Inorganic Compounds. Prentice Hall. pp. 442–445. 
  7. ^ Ray, T. "Chromium(II) Acetate" in Encyclopedia of Reagents for Organic Synthesis (Ed: L. Paquette) 2004, J. Wiley & Sons, New York. doi:10.1002/047084289
  8. ^ Lee, M.; Nakamura, H.; Minoura, Y. (1976). "Graft copolymerization of styrene on rubber containing halogen by chromous acetate". Journal of Polymer Science 14 (4): 961–971. doi:10.1002/pol.1976.170140416. 

Further reading

  • Rice, S. F.; Wilson, Randall B.; Solomon, Edward I. (1980). "Electronic Absorption Spectrum of Chromous Acetate Dihydrate and Related Binuclear Chromous Carboxylates". Inorg. Chem. 19 (11): 3425–3431. doi:10.1021/ic50213a042. 

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