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High-throughput gas separation by flexible metal-organic frameworks with fast gating and thermal management capabilities.

Shotaro HiraideYuta SakanakaHiroshi KajiroShogo KawaguchiMinoru T MiyaharaHideki Tanaka
Published in: Nature communications (2020)
Establishing new energy-saving systems for gas separation using porous materials is indispensable for ensuring a sustainable future. Herein, we show that ELM-11 ([Cu(BF4)2(4,4'-bipyridine)2]n), a member of flexible metal-organic frameworks (MOFs), exhibits rapid responsiveness to a gas feed and an 'intrinsic thermal management' capability originating from a structural deformation upon gas adsorption (gate-opening). These two characteristics are suitable for developing a pressure vacuum swing adsorption (PVSA) system with rapid operations. A combined experimental and theoretical study reveals that ELM-11 enables the high-throughput separation of CO2 from a CO2/CH4 gas mixture through adiabatic operations, which are extreme conditions in rapid pressure vacuum swing adsorption. We also propose an operational solution to the 'slipping-off' problem, which is that the flexible MOFs cannot adsorb target molecules when the partial pressure of the target gas decreases below the gate-opening pressure. Furthermore, the superiority of our proposed system over conventional systems is demonstrated.
Keyphrases
  • metal organic framework
  • room temperature
  • high throughput
  • carbon dioxide
  • aqueous solution
  • climate change
  • single cell
  • loop mediated isothermal amplification
  • mass spectrometry
  • current status