Supramolecular architectures based on transition metal complexes with 1-(3-pyridyl)-2-(4′-pyrimidyl)ethene?

CrystEngComm Pub Date: 2008-04-09 DOI: 10.1039/B802044B

Abstract

The assemblies of 1-(3-pyridyl)-2-(4′-pyrimidyl)ethene (L4) with transition metal ions lead to different multidimensional supramolecular architectures with interesting net topologies. The ligand tends to assume a monodentate coordination mode through the pyridine group to generate mononuclear [M(L4)2(H2O)4]2+ cations [M = Cd (1), Mn (2), Co (3), Ni (4), Zn (5), Cu (6)] with ClO4? (15) or NO3? (6) as the counterion. The uncoordinated pyrimidyl group plays a critical directing role in the supramolecular assembly of the mononuclear species. In 1 and 6, the self-complementary intermolecular O–H?N hydrogen bonds involving all pyrimidyl nitrogen atoms and coordinated water molecules assemble the mononuclear species into 2-D sheets, and the sheets are further connected through the O–H?O hydrogen bonds between coordinated waters and ClO4? (1) or NO3? (6) to generate different 3-D architectures. In 25, one of the four pyrimidyl nitrogen atoms in each mononuclear cation is engaged in hydrogen bonding with a lattice water molecule, and consequently the self-assembly of the mononuclear species via the O–H(coordinated water)?N hydrogen bonds leads to 1-D tapes instead of 2-D sheets. The tapes are linked into a complicated 3D architecture through the lattice water molecules and ClO4? ions. On the other hand, in the compound with SO42? as the counterion (7), the ligand acts as a ditopic bridge to produce 1-D coordination chains of formula [Cu(L4)(H2O)4]n2n+. The compound exhibits a very complicated 3D architecture, in which the hydrogen-bonded network of sulfate ions and water molecules is enclosed in the channel surrounded by the coordination chains.

Graphical abstract: Supramolecular architectures based on transition metal complexes with 1-(3-pyridyl)-2-(4′-pyrimidyl)ethene
Recommended Literature