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Molecular-Sieving Separation of Methanol/Benzene Azeotrope by a Flexible Metal-Organic Framework.

Mu-Yang ZhouXue-Wen ZhangHeng YiZhi-Shuo WangDong-Dong ZhouRui-Biao LinJie-Peng ZhangXiao-Ming Chen
Published in: Journal of the American Chemical Society (2024)
Separation of methanol/benzene azeotrope mixtures is very challenging not only by the conventional distillation technique but also by adsorbents. In this work, we design and synthesize a flexible Ca-based metal-organic framework MAF-58 consisting of cheap raw materials. MAF-58 shows selective methanol-induced pore-opening flexibility. Although the opened pores are large enough to accommodate benzene molecules, MAF-58 shows methanol/benzene molecular sieving with ultrahigh experimental selectivity, giving 5.1 mmol g -1 high-purity (99.99%+) methanol and 2.0 mmol g -1 high-purity (99.97%+) benzene in a single adsorption/desorption cycle. Computational simulations reveal that the preferentially adsorbed, coordinated methanol molecules act as the gating component to selectively block the diffusion of benzene, offering a new gating adsorption mechanism.
Keyphrases
  • metal organic framework
  • carbon dioxide
  • ionic liquid
  • genome wide
  • diabetic rats
  • high glucose
  • aqueous solution
  • solid state