Abstract
The reduction potentials for two Wurster’s crowns, aza crown ethers which incorporate the redox active N, N, N′, N′-tetraalkyl-1,4-phenylenediamine into the structure of 18-crown-6, were studied in the presence of the siderophore ferrioxamine B, FeHDFB +. Addition of FeHDFB + resulted in a positive shift in the host reduction potential for both aza crown ethers studied. This shift is explained in terms of host-guest supramolecular assembly formation, which was independently verified by FAB-MS. An enhanced affinity for host-guest formation of the reduced aza crown ether was calculated for each aza crown ether-siderophore assembly using a thermochemical cycle. These differences in host binding affinity as a function of redox state can be harnessed for use in specific metal ion compartmentalization with application, for example, to environmental remediation.
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