In this work, the oxidation of several new dinuclear metal (M) acetate complexes of the redox-active guanidinofunctionalized aromatic compound (GFA) 1,2,4,5-tetrakis(tetramethylguanidino)benzene (1) was studied. The complexes [1{M(OAc)(2)}(2)] (M = Ni or Pd) were oxidized to the radical monocationic complexes [1{M(OAc)(2)}(2)](+center dot). From CV (cyclic voltammetry) measurements, the Gibbs free enthalpy for disproportionation of [1{M(OAc)(2)}(2)](+) into [1{M(OAc)(2)}(2)] and [1{M(OAc)(2)}(2)](2+) could be estimated to be roughly +20 kJ mol(-1) in CH2Cl2 solution. A characteristic feature of the [1{M(OAc)(2)}(2)](+center dot) complexes is the presence of intense metal ligand charge-transfer bands in the electronic absorption spectra. The complex [1{Ni(OAc)(2)}(2)](+center dot) combines three paramagnetic centers with four metal-centered unpaired electrons and a ligand centered pi-radical and exhibits a sextet electronic ground state. Spin distribution of the Ni complexes was evaluated by paramagnetic H-1 and C-13 NMR and was correlated with calculations. The strong ferromagnetic metal ligand magnetic coupling was studied in the solid state by magnetometric (SQUID) measurements and by quantum chemical (DFT) calculations. The temperature dependence of the paramagnetic NMR shift was used for the evaluation of the magnetic coupling between the Ni centers and the pi-radical in solution.