Author
Listed:
- Xiaojuan Liu
(China Institute of Atomic Energy)
- Feng Gao
(China Institute of Atomic Energy)
- Tiantian Jin
(China Institute of Atomic Energy)
- Ke Ma
(China Institute of Atomic Energy)
- Haijiang Shi
(China Institute of Atomic Energy)
- Ming Wang
(Hainan University)
- Yanan Gao
(Hainan University)
- Wenjuan Xue
(Tiangong University)
- Jing Zhao
(China Institute of Atomic Energy)
- Songtao Xiao
(China Institute of Atomic Energy)
- Yinggen Ouyang
(China Institute of Atomic Energy)
- Guoan Ye
(China Institute of Atomic Energy)
Abstract
The selective separation of thorium from rare earth elements and uranium is a critical part of the development and application of thorium nuclear energy in the future. To better understand the role of different N sites on the selective capture of Th(IV), we design an ionic COF named Py-TFImI-25 COF and its deionization analog named Py-TFIm-25 COF, both of which exhibit record-high separation factors ranging from 102 to 105. Py-TFIm-25 COF exhibits a significantly higher Th(IV) uptake capacity and adsorption rate than Py-TFImI-25 COF, which also outperforms the majority of previously reported adsorbents. The selective capture of Py-TFImI-25 COF and Py-TFIm-25 COF on thorium is via Th-N coordination interaction. The prioritization of Th(IV) binding at different N sites and the mechanism of selective coordination are then investigated. This work provides an in-depth insight into the relationship between structure and performance, which can provide positive feedback on the design of novel adsorbents for this field.
Suggested Citation
Xiaojuan Liu & Feng Gao & Tiantian Jin & Ke Ma & Haijiang Shi & Ming Wang & Yanan Gao & Wenjuan Xue & Jing Zhao & Songtao Xiao & Yinggen Ouyang & Guoan Ye, 2023.
"Efficient and selective capture of thorium ions by a covalent organic framework,"
Nature Communications, Nature, vol. 14(1), pages 1-10, December.
Handle:
RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-40704-0
DOI: 10.1038/s41467-023-40704-0
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