Metal ion cages with stabilized conformations : synthesis, characterization and properties
Master Thesis
1989
Permanent link to this Item
Authors
Journal Title
Link to Journal
Journal ISSN
Volume Title
Publisher
Publisher
University of Cape Town
Department
Faculty
License
Series
Abstract
The stabilized conformers lel₃, lel₂ob, ob₂lel and ob₃ of the [Co(±pn)₃]³⁺ system have previously been synthesized giving relative equilibrium (100 °C) amounts of 35.0 : 41.1 : 18.0 : 4.0. With the recent encapsulation of the resolved lel₃-[Co(pn)₃₋]Cl₃ complexes, and their subsequent interconversion to the ob₃-[Co(NH₃)₂-pnsar]Cl₅ diastereomers, the synthesis of the lel₂ob and ob₂lel cage complexes is a necessity to complete the investigation of the [Co(NH₃)₂-pnsar]⁵⁺ system. Consequently the eight Δ, Λ isomers of the lel₂ob-[Co(NH₃)₂-pnsar]Cl₅ complex were synthesised in a one pot reaction and resolved into the respective isomers having the following relative yields: lel₂ob-1 (~ 24% ), lel₂ob-2 ( ~ 43% ), lel₂ob-3 ( ~ 28%) and lel₂ob-4 (~ 5%). The resolution order of these isomers on SP Sephadex C-25 was used to tentatively identify the (3 mer and 1 fac) geometrical isomers of these lel₂ob diastereomers. For the first time ob character was directly encapsulated with the synthesis of the ob₂lel-[Co(NH₃)₂-pnsar]Cl₅ conformers ( ~ 1 % ). NMR analysis showed these to consist almost entirely (80%) of the ob₂lel-1 isomer. The geometry of this isomer was later discovered to be most favourable when the lel₂ob-1 isomer gave a 50% conversion to the ob₂lel-1 isomer, unlike the poor conversions of the ob₂lel-2 (~ 5%) and the ob₂lel-3 (~ 15%). The electronic spectra (UV /VIS and CD) of the individual isomers were investigated and revealed the presence of large distortion of the CoN₆ chromophore from regular Oh geometry. This was confirmed by the crystal structural analysis of the lel₂ob-2 isomer which reveal a trigonal twist angle (ф) of ~ 45°. The crystal structure also proved the identification logic right, which was based on the relation between chemical and resolution order evidence. The infrared spectra of [Co(NH₃)₂-sar]⁵⁺ ion was analysed using isotopic labelling methods in combination with the results of group theory calculations. These assignments make it possible to study the spectra of the [Co(NH₃)₂-pnsar]⁵⁺ isomeric complexes. Comparison of the infrared spectra of these complexes reflect the increase in number of bands on progressing from D₃, through C₃ to C₁ symmetry. Even the orientation of methyl groups in the different conformer types affect the symmetry of the CoN₆ core.
Description
Keywords
Reference:
Naidoo, K. 1989. Metal ion cages with stabilized conformations : synthesis, characterization and properties. University of Cape Town.