The chemistry of anion-encapsulation assemblies in copper pyrazolates is reminiscent of the work on the halide- and chalcogenide-centered cubic copper(I) dithiolates. Great efforts have been made to determine the relationship between the design of the ligands, reaction conditions, and the structure of the metallacycles. Fine-tuning the substituent on the pyrazole ligand and controlling the reaction stoichiometry has led to the synthesis of cages, crowns, and anticrowns.These metallacycles are composed of six copper atoms interlinked by the same number of pyrazolate ligands and encapsulate an anion in the cavity.
Bioinspired Ion Recognition in Hexanuclear Copper Pyrazolate Metallacycles
GALASSI, Rossana;BURINI, Alfredo;
2012-01-01
Abstract
The chemistry of anion-encapsulation assemblies in copper pyrazolates is reminiscent of the work on the halide- and chalcogenide-centered cubic copper(I) dithiolates. Great efforts have been made to determine the relationship between the design of the ligands, reaction conditions, and the structure of the metallacycles. Fine-tuning the substituent on the pyrazole ligand and controlling the reaction stoichiometry has led to the synthesis of cages, crowns, and anticrowns.These metallacycles are composed of six copper atoms interlinked by the same number of pyrazolate ligands and encapsulate an anion in the cavity.File in questo prodotto:
Non ci sono file associati a questo prodotto.
I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
