Andreas Fath scite author profile

The synthesis of a series of nine large macrocyclic ligands with two N(2)S(2) (thioether and Schiff-base imine) binding sites each, with different bridges between the donor atoms of each site (ethylene, o-xylylene, propylene, butylene) and different spacer groups between the two binding sites (p-xylylene, 2,5-dimethyl-p-xylylene, 2,5-dimethoxy-p-xylylene), and the synthesis of a similar ligand with a preorganized double-helical geometry, based on a paracyclophane spacer group, are reported, together with the syntheses and characterizations of the corresponding dicopper(I) compounds. The solid state structures of the dicopper(I) complexes have two tetrahedral copper(I) sites, separated by ca. 8 Å, and a figure-of-eight loop configuration of the ligand with a parallel arrangement of the two substituted benzene spacer groups (benzene.benzene distance of ca. 3.5 Å). All the dicopper(I) compounds have the same double-helical configuration ("twisted ring figure-of-eight loop"). NMR spectroscopy indicates that the monocyclic metal-free ligands have an open, cyclic structure in solution, while the dicopper(I) compounds are folded as in the solid. In acetonitrile there is a fast dynamic equilibrium between two enantiomeric forms of the double-helical dicopper(I) compounds. The fact that copper(I)-donor atom bond breaking is involved in this process is supported by (1)H NMR data and by the X-ray crystal structure analysis of a putative intermediate with each of the two copper(I) centers coordinated to one acetonitrile and three donors of the macrocycle. A second fast dynamic, solvent independent process (epimerization) has been identified in nitromethane and acetonitrile, involving helix inversion with full conservation of the copper(I) coordination.

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Helical transition-metal compounds: preorganisation of the ligands by a paracyclophane group

Comba¹,

Fath²,

Hüttner³

et al. 1996

Chem. Commun.

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Preorganization of tetrathiamacrocyclic ligands: implications from computed and experimentally determined structures

Comba¹,

Fath²,

Kühner³

et al. 1997

J. Chem. Soc., Dalton Trans.

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Double Helical Dinuclear Copper(I) Complexes of Macrocyclic Bis(dithiadiimine) Ligands

Comba¹,

Fath²,

Hambley³

et al. 1995

Angew. Chem. Int. Ed. Engl.

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A [2 + 21 condensation reaction['' was used to prepare 32-and 34-membered macrocyclic Schiff base type ligands with (NZSL)Z donor sets (Scheme 1 ) . Both imines and thiaethers favor soft metal centers and thus stabilize the + I oxidation state of copper. which has a preference for tetrahedral coordination geometry. Because of our interest in the comparison of solid-state and solution structures of transition metal compounds,[21 the structural and spectroscopic properties of compounds 6 and 7 were of particular interest. In this communication we describe the syntheses of the ligands 4 and 5 and of their dicopper (1) complexes 6 and 7. as well as their structural, spectroscopic, and electrochemical properties.

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Andreas Fath

Helical Figure-of-Eight Loop Dicopper(I) Compounds: Syntheses, Structures, and Dynamics

Helical transition-metal compounds: preorganisation of the ligands by a paracyclophane group

Preorganization of tetrathiamacrocyclic ligands: implications from computed and experimentally determined structures

Double Helical Dinuclear Copper(I) Complexes of Macrocyclic Bis(dithiadiimine) Ligands

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