材料科学
氙气
再生(生物学)
化学工程
有机化学
化学
生物
细胞生物学
工程类
作者
Hong‐Xiang Nie,Mei‐Hui Yu,Hongliang Huang,Shanshan Liu,Jizhen Jia,Landong Li,Ze Chang,Michael J. Zaworotko,Xian‐He Bu
标识
DOI:10.1002/adfm.202414933
摘要
Abstract Xenon, Xe, is a noble gas that is present in the atmosphere in trace amounts. Nevertheless, despite its low abundance and relatively high cost, Xe has utility, including as an anesthetic and a neuroprotectant in the medical industry. Xe recycling after usage will represent an approach that shall enable more widespread adoption in medicine. In this work, it is reported that the microporous metal‐organic framework (MOF) material NKU‐1017(Si) can enable Xe recycling by capturing CO 2 impurities from exhaled anesthetic Xe gas mixtures at ambient temperature for facile and efficient recycling of Xe. The performance of NKU‐1017(Si) is driven by its ultramicroporous structure that offers a high density of aromatic rings on the pore surface along with other functionality to form a bespoke nanotrap for CO 2 with multiple C─H … π interaction sites that result in CO 2 /Xe selectivity of 15.5 at ambient conditions. Whereas NKU‐1017(Si) adsorbs both H 2 O (300 cm 3 g −1 ) and CO 2 (70 cm 3 g −1 ), humidity does not affect dynamic breakthrough performance. Theoretical studies provide insight into the CO 2 ‐framework binding interactions that drive this performance. The superior separation selectivity of NKU‐1017(Si) under ambient conditions enables a new approach for the Xe recovery through the regeneration of anesthetic gas for more widespread application in medicine.
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