Nature Communications (Dec 2023)

Thermally-induced atropisomerism promotes metal-organic cage construction

  • Jiaqi Liang,
  • Shuai Lu,
  • Yang Yang,
  • Yun-Jia Shen,
  • Jin-Ku Bai,
  • Xin Sun,
  • Xu-Lang Chen,
  • Jie Cui,
  • Ai-Jiao Guan,
  • Jun-Feng Xiang,
  • Xiaopeng Li,
  • Heng Wang,
  • Yu-Dong Yang,
  • Han-Yuan Gong

DOI
https://doi.org/10.1038/s41467-023-43756-4
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 12

Abstract

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Abstract Molecular folding regulation with environmental stimuli is critical in living and artificial molecular machine systems. Herein, we described a macrocycle, cyclo[4] (1,3-(4,6-dimethyl)benzene)[4](1,3-(4,6-dimethyl)benzene)(4-pyridine). Under 298 K, it has three stable stiff atropisomers with names as 1 (C s symmetry), 2 (C s symmetry), and 3 (C 4v symmetry). At 393 K, 1 can reversibly transform into 2, but at 473 K, it can irrevocably transform into 3. At 338 K, 3 and (PhCN)2PdCl2 complex to produce the metal-organic cage 4. Only at 338 K does the combination of 1 or 2 and (PhCN)2PdCl2 create a gel-like structure. Heating both gels to 473 K transforms them into 4. In addition to offering a thermally accelerated method for modifying self-assembled systems using macrocyclic building blocks, this study also has the potential to develop the nanoscale transformation material with a thermal response.