Collection of Czechoslovak Chemical Communications - digital archive 

Abstract

Complete ligand field calculations, including spin-orbit coupling, have been carried out for bent d¹ metallocene complexes, [M(Cp)₂L_n] (Cp = η⁵-cyclopentadienyl, n = 1 or 2), in C_2v symmetry. Using the strong-field coupling formalism (with exclusion of spin-orbit coupling) the full energy matrices for d², d³, and d⁴ bent metallocenes were constructed in terms of four ligand field splitting parameters and two Racah interelectronic repulsion parameters (only d² energy matrices are presented here). The bonding in the bent d¹ C_2v M(Cp)₂ fragment was analyzed from the point of view of the ligand field model. The experimental d-d transition energies of two d¹ metallocene dichlorides, vanadocene and niobocene dichlorides, have been assigned, the values of four one-electron ligand field splitting parameters determined and the effect of spin-orbit coupling estimated. The ground state of both d¹ metallocene dichlorides has shown to be ²A(1₁¹), the d-orbital energy order being 1a₁ < b₁ < b₂ < 2a₁ < a₂. Finally, the prediction of d-d spectra for d², d³, and d⁴ bent metallocene complexes is presented.

Keywords: Ligand field theory; Bent metallocene complexes; One-electron d-orbital energies; Spin-orbit coupling; Strong-field energy matrices; d-d Spectra; Vanadocene dichloride; Niobocene dichloride; Sandwich complexes.

References: 73 live references.