Alkyne complexes of platinum. Part 4. Stepwise formation of di- and tri-platinum complexes with bridging alkyne ligands; crystal structure of [Pt3{µ-(η2-PhC2Ph)}2(PEt3)4]

Abstract

Reaction of the compound [Pt(PhC₂Ph)₂] with [Pt(C₂H₄)(PPh₃)₂] or [Pt₂(µ-cod)(PEt₃)₄](cod = cyclo-octa-1,5-diene) affords diplatinum complexes [Pt₂(µ-PhC₂Ph)(PhC₂Ph)(PR₃)₂](R = Ph or Et). The triphenylphosphine compound has also been prepared by treating PhCCPh with [Pt(C₂H₄)₂(PPh₃)]. The terminal alkyne ligand in [Pt₂(µ-PhC₂Ph)(PhC₂Ph)(PPh₃)₂] bonds a third platinum atom on treatment with [Pt(C₂H₄)(PPh₃)₂] to give the triplatinum complex [Pt₃(µ-PhC₂Ph)₂(PPh₃)₄]. The latter can also be prepared by addition of 2 mol equivalents of [Pt(C₂H₄)(PPh₃)₂ to [Pt(PhC₂Ph)₂], and the triethylphosphine-triplatinum analogue is similarly obtained using [Pt₂(µ-cod)(PEt₃)₄]. In view of the novelty of these compounds, a single-crystal X-ray diffraction study has been carried out on [Pt₃(µ-PhC₂Ph)₂(PEt₃)₄], crystals of which are monoclinic, space group C2/c(no. 15), with Z= 4 in a unit cell of dimensions a= 17.047(2), b= 13.677(2), c= 25.073(3)Å, and β= 105.79(1)°. The structure has been solved by heavy-atom methods from 3 038 intensity data [I 3.0σ(I)] measured on a four-circle diffractometer at 300 K, and refined to R 0.047 (R′ 0.046). The three platinum atoms adopt an open V-shaped configuration with an internuclear distance of 2.90₄Å and an interbond angle of 144°, while the acetylenic units form transverse bridges across the two Pt–Pt vectors on the convex side of the V. The phenyl groups bend away from the metal atoms to give a C–C–Ph angle of 139°, and the whole molecule is constrained crystallographically to C₂ symmetry. The ethyl groups of the phosphine ligands are ill defined and possibly disordered.

The diplatinum complexes [Pt₂(µ-RC₂R)(PMe₃)₄](R = Ph or C₆F₅) have also been prepared, and [Pt₂(µ-PhC₂Ph)(PEt₃)₄] characterised spectroscopically. Reaction of [Pt(PhC₂Ph)(CNBu^t)₂] with [Pt(C₂H₄)(PPh₃)₂] yields trans-[Pt₂(µ-PhC₂Ph)(CNBu^t)₂(PPh₃)₂], scrambling of the CNBu^t and PPh₃ ligands having occurred. The stereochemistry of this complex, and its PhCCC₆H₄OMe-4 analogue, has been established by ³¹P and ¹³C-labelling n.m.r. studies. The modes of formation of the various compounds are discussed.