Synthesis of the New, Cubane-like W3S4Co Cluster Core. Completion of the Homologous Series [(η5-Cp‘)3M3S4Co(CO)] (M = Cr, Mo, W)

Templated syntheses of heterometal tungsten-cobalt-sulfur clusters with different nuclearities

A series of new W-Co-S clusters have been synthesized utilizing the complex [Et₄N][(Tp*)WS₃] (Tp* = hydridotris(3,5-dimethylpyrazol-1-yl)borate(1-)) as the synthetic template, by rational control of the stoichiometry of reactants and by employment of a reductant or precipitant as an auxiliary reagent. By solubility control or addition of a precipitant to avoid the involvement of Cl^- in the reaction, the cluster [(Tp*)WS₃]₂Co (2) could be obtained. With different ratios of the Co source to the template, together with the use of an appropriate amount of reducing reagent, clusters [{(Tp*)WS₃}₂Co]^1- (3) and [{(Tp*)WS₃}₂Co₂Cl]^1- (4) could be synthesized as their Et₄N⁺ salts, and [{(Tp*)WS₃}₂Co₄Cl₂(DMF)]^1- (5) could be isolated as its [Co(DMF)₆]²⁺ salt. A common structural feature of these clusters is that they all have a pair of [(Tp*)WS₃] templates chelating different numbers of Co atoms to form W-Co-S clusters with distinct nuclearities. The clusters [(Tp*)WS₃]₂Co (2) and [{(Tp*)WS₃}₂Co]^1- (3) both have one Co atom chelated by two [(Tp*)WS₃] templates, and the difference lies in not only the oxidation states but also the fact that the Co atom in 2 adopts an octahedral coordination environment while that in 3 bears a tetrahedral coordination sphere, which means that the [(Tp*)WS₃] template is tri-dentate in 2 and bi-dentate in 3. The cluster [{(Tp*)WS₃}₂Co₂Cl]^1- (4) has two Co atoms chelated by a pair of [(Tp*)WS₃] templates, in which one of the Co atoms is also terminally bound by a Cl^- ligand. There are four Co atoms chelated by two [(Tp*)WS₃] templates in the cluster [{(Tp*)WS₃}₂Co₄Cl₂(DMF)]^1- (5), two of which are bound terminally by the Cl^- ligands. Studies of redox properties by cyclic voltammetry indicate the existence of two reversible redox pairs related to clusters 2 and 3, respectively.

The first heterocubane cluster with a [W3GaS4] core

The paramagnetic cuboidal clusters [Mo₃(GaCl)(μ₃-S)₄(dppe)₃Cl₃] and [W₃(GaBr)_0.81(μ₃-S)₄(dppe)₃Br₃] were synthesized by treatment of the corresponding triangular clusters [M₃S₄(dppe)₃X₃]X with [Ga(η⁵-C₅Me₅)]₆.

Delivering carbide ligands to sulfide-rich clusters

The propensity of the terminal ruthenium carbide Ru(C)Cl₂(PCy₃)₂ (RuC) to form carbide bridges to electron-rich transition metals enables synthetic routes to metal clusters with coexisting carbide and sulfide ligands.

Synthesis, structure and reactivity of cuboidal-type cluster aqua complexes with W3PdS44+core

The reaction of PdCl(2) with [W3S4(H2O)9]4+ in the presence of hypophosphorous acid in 2 M HCl gives cuboidal cluster [W3(PdCl)S4(H2O)9]3+ (1) which undergoes condensation and crystallises from Hpts solutions as edge-linked double cubane cluster [{W3PdS4(H2O)9}2](pts)(8).19H2O (pts = p-toluenesulfonate) (1'). The substitution of Cl- in (1) by different ligands was explored. The Pd atom in the cluster shows an exceptionally high reactivity in the isomerisation of the hydrophosphoryl H2P(O)(OH), HP(O)(OH)2, HPPh(O)(OH) and HPPh2(O) molecules into the corresponding hydroxo tautomers HP(OH)2, P(OH)3, PhP(OH)2 and Ph2P(OH) stabilised by coordination at Pd. The reactions were followed by UV-Vis spectrophotometry and 31P NMR. Formation constants of the 1 : 1 coordination of [M3(PdCl)S4(H2O)9]3+ (M = Mo, W) with HP(OH)2 and As(OH)3 were obtained. The structures of cucurbit[6]uril (C36H36N24O12, CUC[6]) adducts [W3(PdP(OH)3)S4(H2O)8Cl]-(C36H36N24O12)Cl3.12.5H2O (2), and [W3Pd(PhP(OH)2)S4(H2O)7Cl2]2(C36H36N24O12)Cl4.9H2O (3) were determined by single-crystal X-ray diffraction.