The oxidation of Ru(NH(3))(5)NCCH(2)py(2+) in 0.10 M HCl turns the solution from yellow to greenish blue with an absorption at lambda = 791 nm. The absorbance reaches its maximum value when the complex undergoes a two-electron oxidation. The IR and (1)H NMR spectra of the product indicate that the metal center remains as Ru(II) and that the ligand is oxidized. The (13)C NMR spectral results suggest that the oxidation product is [(NH(3))(5)RuNCC(pyH)C(pyH)CNRu(NH(3))(5)](ClO(4))(6). Cyclic voltammetry of the product solution also indicates that the oxidation proceeds in two one-electron steps corresponding to [Ru(III),Ru(II)] + e(-) <= => [Ru(II),Ru(II)] and [Ru(III),Ru(III)] + e(-) <= => [Ru(III),Ru(II)]. The structure of the product in deprotonated form [(NH(3))(5)RuNCC(py)C(py)CNRu(NH(3))(5)](ClO(4))(4)(H(2)O)(2) was determined crystallographically. [(NH(3))(5)RuNCC(py)C(py)CNRu(NH(3))(5)](ClO(4))(4)(H(2)O)(2) crystallizes in the orthorhombic Pbca space group with cell constants a = 13.7138 (16) A, b = 15.7553 (18) A, c = 17.831(2) A, and Z = 4. A mechanism for the oxidation has been proposed on the basis of the kinetic studies in the region of 0.01-0.20 M acid concentrations.

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http://dx.doi.org/10.1021/ic000944pDOI Listing

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