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Structure and Electrochemistry of Various Diruthenium(II,III) Tetrametallocenecarboxylates

2002; American Chemical Society; Volume: 21; Issue: 26 Linguagem: Inglês

10.1021/om020729b

1520-6041

Michael W. Cooke, T. Stanley Cameron, Katherine N. Robertson, Jannie C. Swarts, M.A.S. Aquino,

Ferrocene Chemistry and Applications

A series of mixed-valent diruthenium(II,III) tetrametallocenecarboxylates of the form Ru2(μ-O2C(X)C5H4MCp)4Cl, where M = Fe(II) and X = nothing (1), −CH2− (2), −CH2CH2− (3), −CHCH− (5), M = Ru(II) and X = nothing (6), and the corresponding dechlorinated alcohol di-adducts [Ru2(μ-O2C(X)C5H4MCp)4(ROH)2](PF6), where M = Fe(II), R = ethyl or 1-propyl, and X = nothing (7), −CH2− (8), −CH2CH2− (9), and −CHCH− (10), and M = Ru(II) and X = nothing (11), were synthesized and characterized. In addition, the partially substituted complex with the tentative formula Ru2(μ-O2CCH3)3(μ-O2C(X)C5H4FeCp)4Cl, where X = −CH2CH2CH2− (4), was partially characterized. Complex 7 was structurally characterized previously, and the structures of complexes 10 and 11 are reported here. The complexes differ significantly in the orientation of the metallocenyl rings with respect to each other. An extension of the electrochemical studies that previously revealed evidence of ferrocenyl−ferrocenyl communication in complex 7 shows that this interaction is absent as the X group is lengthened and saturated, but a small degree of communication is still present in complex 10, which contains an unsaturated, conjugated, spacer. The trend in the ferrocenyl-based redox process for complexes 7−10 mimics that of the corresponding free acids. No interactions are seen in the ruthenocenyl derivative (11) due to the irreversibility of its ruthenocenyl-centered redox processes.