Reactions of a Triruthenium Pentahydrido Complex with Imines Leading to the Formation of a Perpendicularly Coordinated Iminoacyl Ligand and the Scission of a CN Bond on a Triruthenium Plane

The reaction of a triruthenium pentahydrido complex, {Cp*Ru­(μ-H)}₃(μ₃-H)₂ (1; Cp* = η⁵-C₅Me₅), with N-benzylidenemethylamine resulted in the exclusive formation of a perpendicularly coordinated iminoacyl complex, (Cp*Ru)₃(μ-η²:η²(⊥)-PhCNMe)­(μ-H)₂ (3b), as a result of C–H bond scission of imine. However, the treatment of 1 with N-benzylideneaniline at 100 °C caused C–N bond cleavage to yield the μ₃-benzylidyne−μ₃-phenylimido complex (Cp*Ru)₃(μ₃-CPh)­(μ₃-NPh)­(μ-H)₂ (7c) and the μ₃-methylidyne−μ₃-phenylimido complex (Cp*Ru)₃(μ₃-CH)­(μ₃-NPh)­(μ-H)₂ (8). The formation of 7c is in strong contrast to the C–N bond scission occurred in (Cp*Ru)₃(μ-η²:η²(⊥)-PhCNH)­(μ-H)₂ (3a), which required heating at 180 °C. The structural and spectral properties of μ₃-η²:η²(⊥)-nitrile complex 2, cationic μ₃-η²:η²(⊥)-iminoacyl complex 6, and neutral μ₃-η²:η²(⊥)-iminoacyl complex 3 revealed a clear trend of the activation of the C–N bond on a Ru₃ plane. The thermolysis of 3b proceeded in a different manner to yield a μ₃-methylidyne−μ₃-η²(∥)-iminoacyl complex, (Cp*Ru)₃(μ₃-CH)­(μ₃-HNCH)­(μ-H) (9), as a consequence of both C–N and C–C bond scission.