Abstract
Heterobimetallic derivatives of a bis(carborane), [μ7,8-(1′,3′−3′-Cl-3′-PPh3-closo-3′,1′,2′-RhC2B9H10)-2-(p-cymene)-closo-2,1,8-RuC2B9H10] (1) and [μ7,8-(1′,3′−3′-Cl-3′-PPh3-closo-3′,1′,2′-RhC2B9H10)-2-Cp-closo-2,1,8-CoC2B9H10] (2) have been synthesised and characterised, including crystallographic studies. A minor co-product during the synthesis of compound 2 is the new species [8-{8′-2′-H-2′,2′-(PPh3)2-closo-2′,1′,8′-RhC2B9H10}-2-Cp-closo-2,1,8-CoC2B9H10] (3), isolated as a mixture of diastereoisomers. Although, in principle, compounds 1 and 2 could also exist as two diastereoisomers, only one (the same in both cases) is formed. It is suggested that the preferred exopolyhedral ligand orientation in the rhodacarboranes in the non-observed diastereoisomers would lead to unacceptable steric crowding between the PPh3 ligand and either the p-cymene (compound 1) or Cp (compound 2) ligand of the ruthenacarborane or cobaltacarborane, respectively.
Highlights
Recent years have witnessed a significant amount of interest in the chemistry of bis(carboranes) [1–4], 1,10 -bis(ortho-carborane), formally [1-(10 -closo-10,20 -C2 B10 H11 )-closo-1,2-C2 B10 H11 ] (I), Scheme 1
Deprotonation of IIICoCp* with n BuLi followed by treatment with [Rh(PPh3 )3 Cl] leads to the heterobimetallic IVCoCp* as a mixture of diastereoisomers [8], the same approach cannot be used with the Cp analog IIICoCp because of the attack on the Cp ring by n BuLi
Whilst distinguishing between C and B vertices crystallographically has traditionally sometimes been challenging, we have recently developed powerful new methods to overcome this problem, the vertex-centroid distance (VCD) [12] and boron-hydrogen distance (BHD) [13] methods
Summary
Recent years have witnessed a significant amount of interest in the chemistry of bis(carboranes) [1–. Seeking to expand the scope of this chemistry, we have investigated the reactions of III [M = Ru, L = (p-cymene); M = Co, L = Cp] with [Rh(PPh3 ) Cl] under different conditions and here present the results. Whilst these new reactions afford compounds of type IV as minor co-products, the major species produced are unique heterometalated derivatives of bis(carborane), each isolated in only one of two possible diastereoisomeric forms.
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