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Rim-Based Binding of Perfluorinated Acids to Pillararenes Purifies Water.

Tu-Nan GaoSi HuangRick NooijenYumei ZhuGabriele I Kociok-KöhnTobias StuerzerGuanna LiJohannes Hendrik BitterGert I J SalentijnYongning WuFedor M MiloserdovHan Zuilhof
Published in: Angewandte Chemie (International ed. in English) (2024)
Per- and polyfluoroalkyl substances (PFAS) pose a rapidly increasing global problem as their widespread use and high stability lead worldwide to water contamination, with significant detrimental health effects. [1] Supramolecular chemistry has been invoked to develop materials geared towards the specific capture of PFAS from water, [2] to reduce the concentration below advisory safety limits (e.g., 70 ng/L for the sum of perfluorooctane sulfonic acid, PFOS and perfluorooctanoic acid, PFOA). Scale-up and use in natural waters with high PFAS concentrations has hitherto posed a problem. Here we report a new type of host-guest interaction between deca-ammonium-functionalized pillar[5]arenes (DAF-P5s) and perfluoroalkyl acids. DAF-P5 complexes show an unprecedented 1 : 10 stoichiometry, as confirmed by isothermal calorimetry and X-ray crystallographic studies, and high binding constants (up to 10 6  M -1 ) to various polyfluoroalkyl acids. In addition, non-fluorinated acids do not hamper this process significantly. Immobilization of DAF-P5s allows a simple single-time filtration of PFAS-contaminated water to reduce the PFOS/PFOA concentration 10 6  times to 15-50 ng/L level. The effective and fast (<5 min) orthogonal binding to organic molecules without involvement of fluorinated supramolecular hosts, high breakthrough capacity (90 mg/g), and robust performance (>10 regeneration cycles without decrease in performance) set a new benchmark in PFAS-absorbing materials.
Keyphrases
  • drinking water
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  • water soluble
  • high resolution
  • risk assessment
  • quantum dots
  • climate change
  • binding protein
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  • health risk
  • energy transfer