Ground-State and Excited-State Structures of Tungsten–Benzylidyne Complexes

The molecular structure of the tungsten–benzylidyne complex trans-W(≡CPh)(dppe)2Cl (1; dppe = 1,2-bis(diphenylphosphino)ethane) in the singlet (dxy)2 ground state and luminescent triplet (dxy)1(π*(WCPh))1 excited state (1*) has been studied using X-ray transient absorption spectroscopy, X-ray crystallography, and density functional theory (DFT) calculations. Molecular-orbital considerations suggest that the W–C and W–P bond lengths should increase in the excited state because of the reduction of the formal W–C bond order and decrease in W→P π-backbonding, respectively, between 1 and 1*. This latter conclusion is supported by comparisons among the W–P bond lengths obtained from the X-ray crystal structures of 1, (dxy)1-configured 1+, and (dxy)2 [W(CPh)(dppe)2(NCMe)]+ (2+). X-ray transient absorption spectroscopic measurements of the excited-state structure of 1* reveal that the W–C bond length is the same (within experimental error) as that determined by X-ray crystallography for the ground state 1, while ...