Pentaamine(dinitrogen)ruthenium(II) chloride

Pentaamine(dinitrogen)ruthenium(II) chloride
Names
IUPAC name
pentaamminedinitrogenruthenium (II) chloride
Identifiers
19504-40-6 N
Properties
H15N7Cl2Ru
Molar mass 285.14 g/mol
Appearance colorless solid
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).
N (what is YesYN ?)
Infobox references

Pentaamine(nitrogen)ruthenium(II) chloride is an inorganic compound with the formula [Ru(NH3)5(N2)]Cl2. It is a nearly white solid, but its solutions are yellow. The cationic complex is of historic significance as the first compound with N2 bound to a metal center.[1][2] [Ru(NH3)5(N2)2+ adopts an octahedral structure with C4v symmetry.[3]

Preparation and properties

Pentaamine(nitrogen)ruthenium(II) chloride is synthesized in an aqueous solution from pentaamminechlororuthenium(II) chloride, sodium azide, and methanesulfonic acid:[4]

[Ru(NH3)5Cl]Cl2 + NaN3 → [Ru(NH3)5N2]Cl2 + ...

If it is to be used in situ, the cation can be made more conveniently from ruthenium(III) chloride and hydrazine hydrate:[4]

RuCl3 + 4 N2H4 → [Ru(NH3)5N2]2+ + ...

This N2 complex is stable in aqueous solution and has a relatively low ligand exchange rate with water. Being a d6 complex, the Ru-N bond is stabilized by the Pi backbonding, the donation of metal d-electrons into the N2 π* orbitals.[5]

Reactions

The dinitrogen ligand is not reduced to aqueous sodium borohydride.[6] Nearly all known reactions of this compound are displacement reactions. Pentaamine(halogen)ruthenium(II) halides can be synthesized by treating [Ru(NH3)5N2]2+ with halide sources:[4]

[Ru(NH3)5N2]2+ + X → [Ru(NH3)5X]+ + N2

[Ru(NH3)5N2]2+ forms the symmetrically bridging symmetrical dinitrogen complex [(NH3)5Ru-NN-Ru(NH3)5]4+.[7][8]

References

  1. Alen. A. D.; Senoff, C. V. (1965) "Nitrogenopentammineruthenium(II) complexes" Chemical Communications 24: 621-2. doi:10.1039/C19650000621
  2. Senoff, C.V. (1990) "The discovery of [Ru(NH3)5NN2]2+: A case of serendipity and the scientific method" Journal of Chemical Education, volume 67: 368. doi:10.1021/ed067p368
  3. Fergusson, J. E.; Love, J. L.; Robinson, W. T. (1972) "The Crystal and Molecular Structure of Dinitrogenpentaammineosmium(II) Chloride, [Os(NH3)5N2]Cl2, and Related Ruthenium Complexes" Inorg. Chem., 11, pp. 1662–1666. doi:10.1021/ic50113a042
  4. 1 2 3 Allen, A. D., Bottomley, F., Harris, R. O., Reinsalu, V. P., Senoff, C. V. "Pentaammine(Nitrogen)Ruthenium(II) Salts and Other Ammines of Ruthenium" Inorganic Syntheses, 2007, volume 12, pp. 2-8. doi: 10.1002/9780470132432.ch1
  5. Taube, H. "Chemistry of Ruthenium(II) and Osmium(II) Ammines" Pure and Applied Chemistry, 1979, volume 51, p. 901–12. doi:10.1351/pac197951040901
  6. J. Chatt, R. L. Richards, J. F. Fergusson and J. L. Love, "The reduction of nitrogen complexes" Chem. Commun. 1968, 1522. doi:10.1039/C19680001522
  7. D. F. Harrison, F. Weissberger and H. Taube, Science, 1968, volume 159, 320.
  8. Chatt, J. "Molecular Nitrogen as a Ligand" Pure Appl. Chem., 1970, volume 24, pp. 425–442. doi:10.1351/pac197024020425
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