Metal ion recognition. Interaction of new oxygen-nitrogen donor macrocycles with selected transition and post-transition metal ions

Effendy, , Fenton, Ronald R., Lindoy, Leonard F., Price, Jason R., Skelton, Brian W., Strixner, Tania, Wei, Gang, and White, Allan H. (2001) Metal ion recognition. Interaction of new oxygen-nitrogen donor macrocycles with selected transition and post-transition metal ions. Journal of Inclusion Phenomena and Macrocyclic Chemistry, 41 (1-4). pp. 185-191.

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Abstract

As part of an ongoing investigation of the factors influencing metal ionrecognition, we have investigated structure/function relationships involvingthe metal-ion binding by three new N-benzyl-substituted, 15- and 16-membered,macrocyclic ligands incorporating N2O 3- and N 3O 3-donor sets (withthe N 3O 3-system consisting of a N 2O 3-macrocyclic ring with an attachedCH 2CH 2NCH 2C 6H 5 pendant arm). Selected solid complexes of thelatter ligand were isolated and the X-ray structures of individual Ni(II) and Ag(I) complexeswere obtained. Where solubility permitted, potentiometric titration studies in 95% methanolwere employed to investigate the binding affinities of all three ligand derivativestowards Co(II), Ni(II), Cu(II), Zn(II), Cd(II), Ag(I) and Pb(II). The 15-memberedN 2O 3-ring was found to be selective for Ag(I) over the other six metalsinvestigated, including Cu(II). However, the presence of a further nitrogen donorin the form of the pendant benzylamine functionality in the N 3O 3-donorsystem results in an increase in its binding affinity for Ag(I) but an even greaterincrease occurs for Cu(II). As a consequence, the latter ion is now more stronglybound than Ag(I). The factors influencing these respective selectivities are discussed.

Item ID: 13267
Item Type: Article (Research - C1)
ISSN: 1573-1111
Keywords: discrimination; macrocycle; stability; transition metals
Date Deposited: 30 Jul 2012 02:41
FoR Codes: 03 CHEMICAL SCIENCES > 0302 Inorganic Chemistry > 030207 Transition Metal Chemistry @ 100%
SEO Codes: 97 EXPANDING KNOWLEDGE > 970103 Expanding Knowledge in the Chemical Sciences @ 100%
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