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Bis-triazolium containing macrocycles, pseudorotaxanes and interlocked structures for anion recognition

DOI: 10.1039/C4RA00615A DOI Help

Authors: Nick White (University of Oxford) , Henry G. Lovett (University of Oxford) , Paul D. Beer (University of Oxford)
Co-authored by industrial partner: No

Type: Journal Paper
Journal: Rsc Advances , VOL 4 (24)

State: Published (Approved)
Published: February 2014
Diamond Proposal Number(s): 9981

Abstract: Two bis-triazole macrocycles were prepared by the copper(I)-catalysed azide alkyne cycloaddition of a bis-azide and 1,6-heptadiyne or 1,3-diethynylbenzene. Upon alkylation of one of these to give the dicationic bis-triazolium cycle, a potent receptor was generated which was demonstrated to be selective for sulfate. Two acyclic bis-triazolium receptors were also synthesized and the halide anion recognition properties of these systems investigated, as well as their ability to form anion templated pseudorotaxanes with an isophthalamide macrocycle. Interestingly, the propyl-linked bis-triazolium host displayed stronger anion binding affinities than the analogous 1,3-phenyl-linked system, although the phenyl-linked receptor formed a more stable halide anion templated pseudorotaxane. An acyclic bis-triazolium threading component produced a stable sulfate anion templated pseudorotaxane with a bis-triazolium macrocycle, which was used to synthesise a tetra-triazolium catenane. An anion templated stoppering strategy was used to prepare a bis-triazolium rotaxane host system which binds halide anions selectively over dihydrogenphosphate in competitive 1:1 CDCl3:CD3OD solvent media

Subject Areas: Chemistry


Instruments: I19-Small Molecule Single Crystal Diffraction

Added On: 17/03/2015 15:02

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