New metallocenes of early transition metals with functional groups in organic ligands. Red-ox transformations

The reduction behavior of the novel zirconocene dichlorides, (h5-C₅Me₅) (h⁵-C ₅Me₄CH₂CH₂ER ₂) ZrCl₂ (ER₂ = NMe₂, PMe₂, PPh₂) , (h⁵-C₅Me₄CH₂ CH₂PMe₂) ₂ZrCl ₂, and (h⁵-C₅Me₄CH₂ CH₂PPh₂) (h⁵-C ₅Me₄CH₂CH₂PMe ₂) ZrCl₂, together with the new types of intramolecular activation of inert C-H and C-heteroatom bonds are presented and discussed. A remarkably thermally stable zirconocene alkylhydryde type framework complex (h⁵-C₅Me₅) [h⁵ ,s-C₅Me₄CH₂CH ₂N (Me) CH₂-]ZrH, zirconocene arylhydryde complex (h⁵-C₅Me₅) [h⁵ ,s-C₅Me₄CH₂CH ₂P (Ph) -o-C₆H₄-]ZrH, tetramethylfulvene hydride-type complexes (h⁵-C₅Me₅) [h⁶ :h¹- (CH₂C₅Me₃ ) CH₂CH₂PR₂]ZrH (R = Me, Ph) and (h⁵-C₅Me₄CH₂ CH₂PPh₂) [h⁶:h ¹- (CH₂C₅Me₃) CH ₂CH₂PMe₂]ZrH are reported. The first unusually thermally stable zirconocene (h⁵,h¹-C₅Me₄ CH₂CH₂PMe₂) ₂ Zr with the Zr (II) center stabilized by intramolecular coordination of two Me₂P-groups is described.