Low valent magnesium compounds

An example (doesn't reflect bond angle)

A number of stable low valent magnesium compounds containing a metal-metal, Mg-Mg, bond, where magnesium exhibits the formal oxidation state of +1 are known. These compounds generally have the formula L₂Mg₂, where L represents a bulky ligand.^[1] The first examples of these stable magnesium(I) compounds were reported in 2007.^[2] The chemistry of Mg is dominated by the +2 oxidation state and prior to 2007 only examples of crystalline compounds with short Mg-Mg distances that may indicate an Mg-Mg bond were known, such as the ternary metal hydrides Mg₂RuH₄, Mg₃RuH₃, and Mg₄IrH₅ and magnesium diboride,^[3] Calculations had also indicated the stability of the Mg₂²⁺ cation^[4]

The preparation of the first compounds made involved the reduction of Mg^II iodine complexes with potassium metal and the bulky ligands were:^[2]

a guanidinate, "priso", [(Ar)NC(NPrⁱ₂)N(Ar)]⁻ where Ar = 2,6-diisopropylphenyl and Prⁱ = iso-propyl
a ketiminate, "nacnac", {[(Ar)NC(Me)]₂CH}⁻,- where Ar = 2,6-diisopropylphenyl and Me = methyl

Both examples have the formula L₂Mg₂, where L represents the bulky anionic bidentate ligand.^[2] X-ray crystallographic studies showed an Mg-Mg bond length of 285.1 pm and 284.6 pm.^[2] Theoretical studies indicate an essentially ionic formulation Mg₂²⁺(L⁻)₂.^[2] The Mg₂²⁺ ion is the group 2 analogue of the group 12 Hg₂²⁺ (present in e.g. mercury(I) chloride) and Cd₂²⁺ ions (present in cadmium(I) tetrachloroaluminate).

Since then a variety of stable Mg(I) compounds have been prepared, some melting over 200 °C, some colorless, others colored, but all involving very bulky ligands.^[1] Also complexes of the LMgMgL with monodentate ligands have been prepared and in these the coordination of the Mg atom increases from three to four.^[1] The magnesium(I) dimers have proved to be useful reducing agents, for example in the preparation of tin(I) compounds.^[5]

References

1 2 3 Stasch, Andreas and Jones, Cameron (2011). "Stable dimeric magnesium(i) compounds: from chemical landmarks to versatile reagents". Dalton Transactions. Royal Society of Chemistry. 40 (21): 5659–5672. doi:10.1039/C0DT01831G. Retrieved 10 February 2015. (subscription required (help)).
1 2 3 4 5 Green, S. P.; Jones C.; Stasch A. (December 2007). "Stable Magnesium(I) Compounds with Mg-Mg Bonds". Science. 318 (5857): 1754–1757. Bibcode:2007Sci...318.1754G. doi:10.1126/science.1150856. PMID 17991827.
↑ King, R. Bruce (October 2002). "Chemical bonding topology of superconductors. 5. The similarities between magnesium diboride and cuprate superconductors and the role of subvalent magnesium". Polyhedron. 21 (23): 2347–2350. doi:10.1016/S0277-5387(02)01183-X. Retrieved 10 Feb 2015. – via ScienceDirect (Subscription may be required or content may be available in libraries.)
↑ .Hogreve, H. (August 2004). "Mg₂²⁺: a long-lived metastable dication". Chemical Physics Letters. 394 (1–3): 32–36. Bibcode:2004CPL...394...32H. doi:10.1016/j.cplett.2004.06.099. Retrieved 10 February 2015. – via ScienceDirect (Subscription may be required or content may be available in libraries.)
↑ Choong, Sam L. and Schenk, Christian and Stasch, Andreas and Dange, Deepak and Jones, Cameron (2012). "Contrasting reductions of group 14 metal(ii) chloride complexes: synthesis of a [small beta]-diketiminato tin(i) dimer". Chemical Communications. Royal Society of Chemistry. 48 (19): 2504–2506. doi:10.1039/C2CC18086C. Retrieved 10 February 2015. (subscription required (help)).

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