Total spontaneous resolution of chiral covalent networks from stereochemically labile metal complexes.
Artikel i vetenskaplig tidskrift, 2005

Stereochemically labile copper and zinc complexes with the N,N'-dimethylethylenediamine ligand (dmeda) have been shown to be promising precursors for the total spontaneous resolution of chiral covalent networks. (N,N')-[Cu(NO3)2(dmeda)]infinity crystallises as a conglomerate and yields either enantiopure (R,R)-1 or enantiopure (S,S)-1. A mixed-valence copper(I/II) complex, [{Cu(II)Br2(dmeda)}3(Cu(I)Br)2]infinity (2), which crystallises as a pair of interpenetrating chiral (10,3)-a nets, is formed from CuBr, CuBr2 and dmeda. One net contains ligands with solely (R,R) configuration and exhibits helices with (P) configuration while the other has solely (S,S)-dmeda ligands and gives rise to a net in which the helices have (M) configuration. The whole crystalline arrangement is racemic, because the interpenetrating chiral nets are of opposite handedness. With zinc chloride (R,S)-[ZnCl(dmeda)2]2[ZnCl4] (3) is obtained, which is a network structure, although not chiral. Total spontaneous resolution of stereochemically labile metal complexes formed from achiral or racemic building blocks is suggested as a viable route for the preparation of covalent chiral networks. Once the absolute structure of the compound has been determined by X-ray crystallography, a quantitative determination of the enantiomeric excess of the bulk product can be undertaken by means of solid-state CD spectroscopy.

circular dichroism

mixed-valent compounds

crystal engineering

chiral networks

chiral resolution

Författare

Anna Johansson

Göteborgs universitet

Mikael Håkansson

Göteborgs universitet

Susan Elisabeth Jagner

Chalmers, Kemi- och bioteknik, Oorganisk kemi

Chemistry - A European Journal

0947-6539 (ISSN) 1521-3765 (eISSN)

Vol. 11 18 5311-8

Ämneskategorier

Kemi

DOI

10.1002/chem.200500094

PubMed

15999370