The dinuclear ytterbium pyridyl diamido complexes [Cp2Yb(THF)](2)[mu-eta(1):eta(2)-(NH)(2)(C5H3N-2,6)] (1a) and [Cp2Yb(THF)](2)[mu-eta(1):eta(2)-(NH)(2)(C5H3N-2,3)] (1b accepted yields, respectively. Treatment of 1a with 2 equiv of dicyclohexylcarbodiimide (CyNCNCy) in THF at low temperature leads to the isolation of the formal double N-H addition product (Cp2Yb)(2)[mu-eta(2):eta(2)-(CyN(CyNH)CN)(2)(C5H3N-2,6)] (2) in 42% yield. Compound 2 is unstable to heat and slowly isomerized to the mixed neutral/dianionic diguanidinate complex (Cp2Yb)(2)[mu-eta(2):eta(2)-(CyNH)(2)CN(C5H3N-2,6)NC(NCy)(2)](THF) (3) at room temperature. Similarly, treatment of 1b with 2 equiv of CyNCNCy gives the addition/ isomerization product (Cp2Yb)(2)[mu-eta(2):eta(2):eta(1)-(CyNH)(2)CN(C5H3N-2,3)NC(NCy)(2)] (4). Moreover, the reaction of various ytterbium aryl diamido complexes (prepared in situ from [Cp2YbMe](2) and aryldiamine, respectively) with CyNCNCy affords the corresponding addition products (Cp2Yb)(2)[mu-eta(2):eta(2)-{CyN(CyNH)CN}(2)(C6H4-1,4)] (5, (Cp2Yb)(2)[mu-eta(2):eta(2)-{CyN(CyNH)CN}(2)(C6H4-1,3)](6), and (Cp2Yb)(2)[mu-eta(2):eta(2)-{CyN(CyNH)CN}(2)(C13H8-2,7)] (7), respectively. In contrast to pyridyl-bridged bis(guanidinate monoanion) complexes, aryl-bridged bis(guanidinate monoanion) complexes 5-7 are stable even with prolonged heating at 110 degrees C. All the results not only demonstrate that the presence of the pyridyl bridge can impart the diamido complexes with a unique reactivity and initiate the unexpected reaction sequence but also indicate evidently that the number and distribution of negative charges of the diguanidinate ligand is tunable from double monoanionic units to mixed neutral/dianionic isomers. All the complexes are characterized by elemental analysis and IR spectroscopies. The structures of complexes 1a, 3, 5, 6, and 7 are also determined through X-ray single-crystal diffraction analysis.