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Synthesis and crystal structures of complexes of Mn II , Cu II and Zn II with the new bis(tridentate) chelate 2,3,5,6-tetrakis(aminomethyl)pyrazine

1994; Royal Society of Chemistry; Issue: 10 Linguagem: Inglês

10.1039/dt9940001549

2050-5671

Michel Ferigo, Pierre Bonhôte, Werner Marty, H. Stoeckli‐Evans,

Metal-Organic Frameworks: Synthesis and Applications

The new bis(tridentate) chelate 2,3,5,6-tetrakis(aminomethyl)pyrazine (tampyz) has been prepared. It forms a quasi-linear one-dimensional polymeric complex with MnCl2 in water. [{Mn(tampyz)Cl2·2H2O}∞]. The crystal structure reveals that it is the first infinite co-ordination polymer with a regular metal–ligand arrangement where the metal atom is fully co-ordinated by all six functional groups of the ligand. The binuclear complex [Cu2(tampyz)Cl2]Cl2·2.25H2O was obtained by the reaction of Cu(O3SC6H4Me-P)2·5H2O and [H4tampyz]Cl4 in water, and its crystal structure determined. The copper atoms can be considered to be either four-co-ordinate in a square-planar environment, or six-co-ordinate with two weak apical Cu ⋯ Cl bonds so forming a ladder-type polymer. The binuclear complex [Cl2Zn(tampyz)ZnCl2] was prepared by the reaction of ZnCl2 and tampyz in water. Its crystal structure reveals that the zinc atoms are five-co-ordinate in a trigonal-bipyramidal arrangement. The two Zn–Cl bonds are equivalent, as expected for a d10 complex.