posted on 2004-06-14, 00:00authored byXavi Ribas, João C. Dias, Jorge Morgado, Klaus Wurst, Isabel C. Santos, Manuel Almeida, José Vidal-Gancedo, Jaume Veciana, Concepció Rovira
The deprotonated form of the pyrazine-2,3-diselenol (pds) ligand, pds2-, reacts with NiII inorganic salts to form the
nickel compounds [NiII(pds)2](nBu4N)2 (1), [NiII(pds)2]Na2·2H2O (2), and [NiIII(pds)2]2Na2·4H2O (3), depending on
the reaction conditions. They are characterized by NMR, EPR, UV−vis, and IR spectroscopies, elemental analysis,
cyclic voltammetry, and X-ray crystallography. The crystal structure of compound 3 shows the formation of segregated
stacks of Ni(pds)2- units, with a strong dimerization along the stacks. The stacked fashion of the crystal packing
was expected since the supramolecular forces of the alkaline side coordination to the pyrazine moieties dominate,
as happens in the recently reported analogous copper system [CuIII(pds)2]Na·2H2O. The structure of 2 further
emphasizes the alkaline coordination as the dominating supramolecular event, and an orthogonal array of 2D
layers is observed. The absence of alkaline cations in complex 1 is reflected in a crystal packing with isolated
complex Ni(pds)22- units. The dimerization found in the paramagnetic NiIII complex 3 promotes a very strong
antiferromagnetic interaction, leading to a singlet ground state.