Molecular Thorium Trihydrido Clusters Stabilized by Cyclopentadienyl Ligands

Abstract

Hydrogenolysis of alkyl-substituted cyclopentadienyl (Cp^R ) ligated thorium tribenzyl complexes [(Cp^R )Th(p-CH₂ -C₆ H₄ -Me)₃ ] (1-6) afforded the first examples of molecular thorium trihydrido complexes [(Cp^R )Th(μ-H)₃ ]_n (Cp^R =C₅ H₂ (^t Bu)₃ or C₅ H₂ (SiMe₃ )₃ , n=5; C₅ Me₄ SiMe₃ , n=6; C₅ Me₅ , n=7; C₅ Me₄ H, n=8; 7-10 and 12) and [(Cp^# )₁₂ Th₁₃ H₄₀ ] (Cp^# =C₅ H₄ SiMe₃ ; 13). The nuclearity of the metal hydride clusters depends on the steric profile of the cyclopentadienyl ligands. The hydrogenolysis intermediate, tetra-nuclear octahydrido thorium dibenzylidene complex [(Cp^ttt )Th(μ-H)₂ ]₄ (μ-p-CH-C₆ H₄ -Me)₂ (Cp^ttt =C₅ H₂ (^t Bu)₃ ) (11) was also isolated. All of the complexes were characterized by NMR spectroscopy and single-crystal X-ray analysis. Hydride positions in [(Cp^Me4 )Th(μ-H)₃ ]₈ (Cp^Me4 =C₅ Me₄ H) were further precisely confirmed by single-crystal neutron diffraction. DFT calculations strengthen the experimental assignment of the hydride positions in the complexes 7 to 12.

Keywords: cluster compounds; cyclopentadienyl ligands; hydrogenolysis; metal hydrides; thorium.