Synthesis and reactivity of the macrobicyclic complexes (1,5,8,12-tetraaza-17-oxabicyclo[10.5.2]nonadecane)cobalt(III) perchlorate ([Co(L-1)(ClO4)](ClO4)(2)), [(chloro(1,4,8,11-tetraaza-17-oxabicyclo[9.5.3]nonadecane)cobalt(III) perchlorate ([Co(L-2)(Cl)](ClO4)(2)), (4,8-dimethyl-1,4,8,11-tetraaza-17-oxabicyclo[9.5.3]nonadecane)cobalt(III) perchlorate ([Co(L-3)(ClO4)](ClO4)(2)), and (5,8-dimethyl-1,5,8,12-tetraaza-17-oxabicyclo[10.5.2]nonadecane)cobalt(III) perchlorate ([Co(L-4)(ClO4)](ClO4)(2))

The potentially penta-coordinating ligands L-2 and L-3 have been synthesized by reaction of the 10-membered macrocycle 1,5-diaza-8-oxacyclodecane with either 1,9-dichloro-3,7-diazanonane-2,8-dione, and subsequent reduction of the diamide (3), or with 1,9-dichloro-3,7-(dimethyl)diazanonane-2,8-dione...

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Bibliographic Details
Published inCanadian journal of chemistry Vol. 83; no. 6-7; pp. 894 - 902
Main Authors Rodopoulos, T, Ishihara, K, Rodopoulos, M, Zaworotko, M, Maeder, M, McAuley, A
Format Journal Article
LanguageEnglish
Published OTTAWA CANADIAN SCIENCE PUBLISHING, NRC RESEARCH PRESS 01.06.2005
Subjects
Chemistry
Chemistry, Multidisciplinary
Physical Sciences
Science & Technology
spectroscopic analysis
anation
KINETICS
ION
cobalt( III)
macrobicycle
LIGAND
SUBSTITUTION-REACTIONS
NICKEL(II)
hydrolysis
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Summary:The potentially penta-coordinating ligands L-2 and L-3 have been synthesized by reaction of the 10-membered macrocycle 1,5-diaza-8-oxacyclodecane with either 1,9-dichloro-3,7-diazanonane-2,8-dione, and subsequent reduction of the diamide (3), or with 1,9-dichloro-3,7-(dimethyl)diazanonane-2,8-dione and reduction (L-3). A similar procedure is outlined for the dimethylated macrobicycle (L-4), based on the corresponding nine-membered 1,4-diaza-7-oxacyclononane. The Co(III) complexes of these ligands and of 1,5,8,12-tetraaza-17-oxabicyclo[10.5.2]nonadecane (L-1) have been prepared. Spectrophotometric determinations on the L-1 complex ion confirm the presence of two hydrogen ion related equilibria, one of which (pK = 2.2 +/- 0.2) is associated with the proposed replacement of the apical ether oxygen by a water molecule that is bound to the metal centre and hydrogen bonded to the ether. The species derived from L-1 and L-2 exhibit remarkable kinetic stability. Studies on the anation of the [Co(L-1)(H2O)](ClO4)(3) with chloride ions in acidic media are consistent with the reaction of both the proton-related complex and the [Co(L-1)(H2O)](3+) ion. Whilst complex ions containing two secondary NH groups maintain the metal-ion coordination in strongly acidic media, corresponding species with ligands containing all four tertiary amine sites are subject to attack by protons leading to a relatively facile demetallation of the complexes. The latter finding is supported by kinetic studies and mass spectrometric fragmentation patterns of the ions.
ISSN:0008-4042
1480-3291
DOI:10.1139/v05-089