A Diruthenium-Based Mixed Spin Complex Ru2 5+ (S=1/2)-CN-Ru2 5+ (S=3/2).

An unusual tetra-nuclear linear cyanido-bridged complex [Ru2 (μ-ap)4 -CN-Ru2 (μ-ap)4 ](BPh4 ) (1) (ap=2-anilinopyridinate) has been synthesized and well characterized. The crystallographic data, magnetic measurement, IR, EPR and theoretical calculation results demonstrate that complex 1 is the first example of mixed spin Ru2 5+ -based complex with uncommon electronic configurations of S=1/2 for the cyanido-C bound Ru2 5+ and S=3/2 for the cyanido-N bound Ru2 5+ . This phenomenon can be understood by the theoretical calculation results that from the precursor Ru2 (μ-ap)4 (CN) (S=3/2) to complex 1 the energy gap between π* and δ* orbitals of the cyanido-C bound Ru2 5+ core increases from 0.57 to 1.61 eV due to the enhancement of asymmetrical π back-bonding effect, but that of the cyanido-N bound Ru2 5+ core is essential identical (0.56 eV). Besides, the analysis of UV/Vis-NIR spectra suggests that there exists metal to metal charge transfer (MMCT) from the cyanido-N bound Ru2 5+ (S=3/2) to the cyanido-C bound Ru2 5+ (S=1/2), supported by the TDDFT calculations.