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The preservation of sarin and O , O '-diisopropyl fluorophosphate inside coordination cage hosts.

Jack C DorratRosemary J YoungChristopher G P TaylorMax B TippingAndrew J BlokDavid R TurnerAlasdair I McKaySimon OvendenMichael D WardGenevieve H DennisonKellie L Tuck
Published in: Dalton transactions (Cambridge, England : 2003) (2023)
The host-guest chemistry of O , O '-diisopropyl fluorophosphate (DFP), a phosphonofluoridate G-series chemical warfare agent simulant, was investigated in the presence of a number of octanuclear cubic coordination cage hosts. The aim was to demonstrate cage-catalysed hydrolysis of DFP at near neutral pH: however, two octanuclear coordination cages, H PEG (containing water-solubilising PEG groups) and H W (containing water-solubilising hydroxymethyl groups), were actually found to increase the lifetime of DFP in aqueous buffer solution (pH 8.7). Crystallographic analysis of DFP with a structurally related host cage revealed that DFP binds to windows in the cage surface, not in the internal cavity. The phosphorus-fluorine bond is directed into the cavity rather than towards the external environment, with the cage/DFP association protecting DFP from hydrolysis. Initial studies with the chemical warfare agent (CWA) sarin (GB) with H PEG cage in a buffered solution also showed a drastically reduced rate of hydrolysis for sarin when bound in the host cage. The ability of these cages to inhibit hydrolysis of these P-F bond containing organophosphorus guests, by encapsulation, may have applications in forensic sample preservation and analysis.
Keyphrases
  • drug delivery
  • anaerobic digestion
  • heavy metals
  • positron emission tomography
  • high resolution
  • single molecule
  • high speed
  • atomic force microscopy