On the role played by the chirality of ligands on the aggregation of heterometallic CuII -HgII complexes

Abstract

Copper(II) complexes constructed from enantiopure Schiff-base ligands derived from o-vanillin and methionine or from their racemic mixture have been employed as metalloligands towards mercury(II) ions. The nature of the heterometallic Cu^II -Hg^II complexes (coordination polymers or oligonucler species), resulted from the reactions of the copper(II) complexes with HgCl₂ or HgI₂ , is different. The enantiopure metalloligands lead to chiral coordination polymers, ¹_∞ [{Cu(R-/S-valmet)(H₂ O)}₂ HgCl₂ ]·5H₂ O·CH₃ OH and ²_∞ [{Cu₂ (R-/S-valmet)₂ (μ-H₂ O)(H₂ O)₂ }HgI₂ ]·4H₂ O. The reaction of the racemic mixture of the metalloligands with HgX₂ affords discrete complexes: [{Cu(R,S-valmet)(H₂ O)₂ }₂ HgCl₂ ]·2H₂ O and [{Cu(R,S-valmet)(H₂ O)(CH₃ OH)}₂ Hg₂ I₄ ].

Keywords: chiral Schiff-base ligands; chiral complexes; coordination polymers; crystal structures; heterometallic complexes.