Nature Communications (Feb 2024)

Separation of benzene and toluene associated with vapochromic behaviors by hybrid[4]arene-based co-crystals

  • Jingyu Chen,
  • Wenjie Zhang,
  • Wenzhi Yang,
  • Fengcheng Xi,
  • Hongyi He,
  • Minghao Liang,
  • Qian Dong,
  • Jiawang Hou,
  • Mengbin Wang,
  • Guocan Yu,
  • Jiong Zhou

DOI
https://doi.org/10.1038/s41467-024-45592-6
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 13

Abstract

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Abstract The combination of macrocyclic chemistry with co-crystal engineering has promoted the development of materials with vapochromic behaviors in supramolecular science. Herein, we develop a macrocycle co-crystal based on hybrid[4]arene and 1,2,4,5-tetracyanobenzene that is able to construct vapochromic materials. After the capture of benzene and toluene vapors, activated hybrid[4]arene-based co-crystal forms new structures, accompanied by color changes from brown to yellow. However, when hybrid[4]arene-based co-crystal captures cyclohexane and pyridine, neither structures nor colors change. Interestingly, hybrid[4]arene-based co-crystal can separate benzene from a benzene/cyclohexane equal-volume mixture and allow toluene to be removed from a toluene/ pyridine equal-volume mixture with purities reaching 100%. In addition, the process of adsorptive separation can be visually monitored. The selectivity of benzene from a benzene/cyclohexane equal-volume mixture and toluene from a toluene/ pyridine equal-volume mixture is attributed to the different changes in the charge-transfer interaction between hybrid[4]arene and 1,2,4,5-tetracyanobenzene when hybrid[4]arene-based co-crystal captures different vapors. Moreover, hybrid[4]arene-based co-crystal can be reused without losing selectivity and performance. This work constructs a vapochromic material for hydrocarbon separation.