Abstract

The binuclear complexes [{Rh(µ-L)L′2}2]{L = pyridine-2-thiolate (SC5H4N–) or benzothiazole-2-thiolate (C7H4NS2–); L′2= cyclo-octa-1,5-diene (cod), norborna-2,5-diene (nbd), tetrafluorobenzobarrelene (tetrafluorobenzo[5,6]bicyclo[2.2.2]octa-2,5,7-triene, tfbb), (CO)2, or (CO)(PPh3)} react with the appropriate species cis-[RhL′2(Me2CO)x]+ to give trinuclear aggregates [Rh3(µ3-L)2(L′2)3][ClO4]. A study of this reaction has led to the controlled synthesis of a single isomer of the complexes [Rh3(µ3-C7H4NS2)2(CO)2(PPh3)2L′2][ClO4]. The trinuclear complexes have been characterized by 1H, 31P n.m.r., and u.v.-visible spectroscopy and in the case of [Rh3(µ3-SC5H4N)2(CO)6][ClO4]·0.5CH2Cl2(4) and [Rh3(µ3-C7H4NS2)2(CO)2(PPh3)2(tfbb)][ClO4](12) by single-crystal X-ray diffraction methods. In both structures trinuclear cationic rhodium complexes are present, in which two pyridine-2-thiolate[(4)] or benzothiazole-2-thiolate[(12)] ligands, acting as triple bridges through the nitrogen and one sulphur atom, interact with all three metal atoms, which are in a bent arrangement. Carbonyl ligands [(4)] and carbonyl, PPh3, and tfbb (through the two double bonds) ligands [(12)] complete the slightly distorted square-planar co-ordination of the Rh atoms.

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