| Literature DB >> 32960463 |
Zi-Jian Li1,2, Yu Ju1,2,3, Huangjie Lu1,2, Xiaoling Wu1, Xinle Yu1, Yongxin Li4, Xiaowei Wu5, Zhi-Hui Zhang3, Jian Lin1,2, Yuan Qian1,2, Ming-Yang He3, Jian-Qiang Wang1,2,6.
Abstract
Effective capture of radioactive iodine is of paramount importance for the safe and long-term storage of fission products in the nuclear fuel cycle. Herein, a series of functionalized Th-UiO-66 MOFs was employed as a model to investigate the effects of substituents on iodine adsorption in both solution and vapor states. Sorption studies revealed that the electro-donating amino group exhibits the most positive role on increasing the removal rate of iodine from cyclohexane and the uptake capacity of iodine vapor. Particularly, the disubstituted Th-UiO-66-(NH2 )2 can effectively remove 91.9 % of iodine (300 mg L-1 ) from cyclohexane and capture 969 mg g-1 iodine vapor, significantly higher than 59.6 % and 334 mg g-1 of untagged Th-UiO-66, respectively. In addition, the substituent effect on the radiolytic stability of MOFs was for the first time investigated, leading to the unearthing of one of the most radioresistant MOFs Th-UiO-66-NH2 reported to date.Entities:
Keywords: iodine; metal-organic frameworks; radioresistance; substituent effects; thorium
Year: 2020 PMID: 32960463 DOI: 10.1002/chem.202003621
Source DB: PubMed Journal: Chemistry ISSN: 0947-6539 Impact factor: 5.236