Synthesis, structure and electrochemistry of Ph2PCH2PPh2-bridged, heterometallic complexes containing a (η-C5H4Me)Mn(CO)2 fragment

Abstract

Heterometallic complexes and clusters were prepared by using the new metallophosphine [Mn(η-C₅H₄Me)(CO)₂(dppm-P)]1 obtained from [Mn(η-C₅H₄Me)(CO)₃] and Ph₂PCH₂PPh₂(dppm). The dark green complexes [(OC)₂(η-C₅H₄Me)M[graphic omitted]dCl₂] and [{(η-C₅H₄Me)[graphic omitted]h(µ-Cl)}₂], which contain metal–metal bonds, have been obtained by the reactions of 1 with [PdCl₂(NCPh)₂] and [{Rh(cod)(µ-Cl)}₂](cod = cycloocta-1,5-diene), respectively. Starting from [Pt(cod)₂], the trimetallic complex [Pt{(µ-dppm)Mn(η-C₅H₄Me)(CO)₂}₂] was formed and a reversible Mn–Pt bond formation has been observed by variable-temperature ³¹P-{¹H} NMR spectroscopy. Reactions of 1 with [PtCl₂(NCPh)₂], [{Re(CO)₃(thf)(µ-Br)}₂](thf = tetrahydrofuran), [{RuCl(CO)₃(µ-Cl)}₂] and [{Ir(cod)(µ-Cl)}₂] led in high yields to complexes of the type Mn–dppm–M–dppm–Mn (M = Pt, Re, Ru or Ir) having no metal–metal interaction. With [Mn(η-C₅H₄Me)(CO)₂(thf)], [{Pd(η³C_-3H₄Me)(µ-Cl)}₂] or [AuBr(tht)](tht = tetrahydrothiophene) bimetallic complexes of the type Mn-dppm-M′(M′= Mn, Pd or Au) were obtained again with no metal–metal interaction. Another route to this type of bimetallic complexes consists of the reaction of [(OC)₂(η-C₅H₄Me)M[graphic omitted]dCl₂] with two-electron donor ligands such as isocyanides RNC (R = 2,6-xylyl or Bu^t), which yielded [(OC)₂(η-C₅H₄Me)Mn(µ-dppm)Pd(CNR)Cl₂]. Reaction of the isocyanide complexes with azetidine did not lead to the expected carbene complexes, instead the isocyanide ligand was substituted by azetidine, yielding [(OC)₂(η-C₅H₄Me)Mn(µ-dppm)Pd(NHC₃H₆)Cl₂]. The structures of the xylyl isocyanide and azetidine complexes have been determined by X ray diffraction. Reaction of [(OC)₂(η-C₅H₄Me)Mn(µ-dppm)AuBr] with the metalate K[Fe{Si(OMe)₃}(CO)₃(PPh₃)] gave in high yield the heterotrimetallic chain complex [(OC)₂(η-C₅H₄Me) Mn(µ-dppm)AuFe{Si(OMe)₃}(CO)₃(PPh₃)]. Reaction of 1 with trans-[Pt{W(η-C₅H₄Me)(CO)₃}₂(NCPh)₂] afforded the cluster [Pt₂W₂(η-C₅H₄Me)₂(µ₃-CO)₂(µ-CO)₄{(µ-dppm)Mn(η-C₅H₄Me)(CO)₂}₂]. An electrochemical study of some of the complexes has provided evidence for possible electronic communication between the metal centres.