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Radiation-Induced De Novo Defects in Metal-Organic Frameworks Boost CO 2 Sorption.

Junchang ChenMingxing ZhangJie ShuShengtang LiuXiao DongChunyang LiLinwei HeMengjia YuanYutian WuJiahui XuDuo ZhangFuyin MaGuo-Zhong WuZhifang ChaiShu-Ao Wang
Published in: Journal of the American Chemical Society (2023)
Defects in metal-organic frameworks (MOFs) can significantly change their local microstructures, thus notably leading to an alteration-induced performance in sorption or catalysis. However, achieving de novo defect engineering in MOFs under ambient conditions without the scarification of their crystallinity remains a challenge. Herein, we successfully synthesize defective ZIF-7 through 60 Co gamma ray radiation under ambient conditions. The obtained ZIF-7 is defect-rich but also has excellent crystallinity, enhanced BET surface area, and hierarchical pore structure. Moreover, the amount and structure of these defects within ZIF-7 were determined from the two-dimensional (2D) 13 C- 1 H frequency-switched Lee-Goldburg heteronuclear correlation (FSLG-HETCOR) spectra, continuous rotation electron diffraction (cRED), and high-resolution transmission electron microscopy (HRTEM). Interestingly, the defects in ZIF-7 all strongly bind to CO 2 , leading to a remarkable enhancement of the CO 2 sorption capability compared with that synthesized by the solvothermal method.
Keyphrases
  • metal organic framework
  • radiation induced
  • electron microscopy
  • air pollution
  • high resolution
  • particulate matter
  • radiation therapy
  • mass spectrometry
  • high glucose
  • density functional theory
  • liquid chromatography