Changes in electrochemical reactivity for lawsone anions (lawsone 2-hydroxy-1 4-naphthoquinone HLw) being coordinated to a series of metallic ions in dimethylsulfoxide solution were evaluated Upon performing cyclic voltammetry experiments for metal complexes of this quinone with pyridine (Py) - structural formula M(II)(Lw(-))(2)(Py)(2) M Co(II) Ni(II) Zn(II) - it was found that the reduction of coordinated Lw- units occurs during the first and second electron uptake in the analyzed compounds The stability of the electrogenerated intermediates for each complex depends on the d electron configuration in each metal center and is determined by magnetic interactions with the available spins considering an octahedral conformation for all the compounds This was evidenced by in situ spectroelectrochemical-ESR measurements in the Zn(II) complex in which due to the lack of magnetic interaction owing to its electron configuration the structure of the coordinated anion radical species was determined Successive reduction of the associated Lw- units leads to partial dissociation of the complex determined by the identification of free radical dianion structures in solution These results show some insights on how metal-lawsone complexation can modify the solution reactivity and stability of the electrogenerated radical species (C) 2010 Elsevier Ltd All rights reserved