Simple synthesis and structure characterization of a phosphoniomethylidyne tantalum(V) complex

A high-valent phosphoniomethylidyne tantalum complex [(C5Me4H)Ta(C-PPh3)(CH-PPh3)Cl] (3) was obtained via transylidation reactions of (C5Me4H)TaCl4 with 5 equivalents of the phosphorus ylide Ph3P = CH2. The addition of strong base Li(N(SiMe3)2 is beneficial to the transylidation reaction and improves the yield of complex 3. The ylide adduct complex [(C5Me4H)TaCl4(CH2PPh3)] (4) as the reaction intermediate was isolated through the reaction of (C5Me4H)TaCl4 with one equivalent of the phosphorus ylide Ph3P = CH2. Both complexes 3 and 4 were structurally characterized by X-ray single crystal diffraction. A comparison on the preparation and properties of the phosphoniomethylidyne tantalum complexes with different supporting ligands, [CpTa(C-PPh3)(CH-PPh3)Cl] (1) (Cp = cyclopentadieneyl ligand), [(C5Me4H)Ta(C-PPh3)(CH-PPh3)Cl] (3) (C5Me4H = tetramethylcyclopentadienyl ligand) (3) and [Cp⁎Ta(C-PPh3)(CH-PPh3)Cl] (2) (Cp⁎ = pentamethylcyclopentadienyl ligand) was discussed.

Graphical abstractA high-valent tantalum(V) phosphoniomethylidyne complex [(C5Me4H)Ta(C-PPh3)(CH-PPh3)Cl] (3) was obtained via transylidation reactions of (C5Me4H)TaCl4 with 5 equiv of the phosphorus ylide Ph3P = CH2. With the addition of 3 equiv of LiN(SiMe3)2 and 3 equiv of Ph3P = CH2 complex 3 could be quantitatively obtained within 12 h.Figure optionsDownload full-size imageDownload as PowerPoint slideHighlights► Synthesis and characterization of a tantalum(V) phosphoniomethylidyne complex. ► Transylidation reactions. ► Tantalum(V) ylide adduct complex. ► Tantalum(V) complex with tetramethylcyclopentadienyl ligand.