用于高效选择性萃取有毒放射性铀离子的氨化共价有机框架（COF）

Ammoniating Covalent Organic Framework (COF) for High-Performance and Selective Extraction of Toxic and Radioactive Uranium Ions.

作者信息

Xiong Xiao Hong, Yu Zhi Wu, Gong Le Le, Tao Yuan, Gao Zhi, Wang Li, Yin Wen Hui, Yang Li Xiao, Luo Feng

机构信息

State Key Laboratory of Nuclear Resources and Environment School of Chemistry, Biology and Materials Science East China University of Technology Nanchang 330013 P. R. China.

High Magnetic Field Laboratory Chinese Academy of Sciences Hefei 230031 Anhui P. R. China.

出版信息

Adv Sci (Weinh). 2019 Jun 27;6(16):1900547. doi: 10.1002/advs.201900547. eCollection 2019 Aug 21.

DOI:10.1002/advs.201900547

PMID:31453066

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6702651/

Abstract

An ideal porous adsorbent toward uranium with not only large adsorption capacity and high selectivity but also broad applicability even under rigorous conditions is highly desirable but still extremely scarce. In this work, a porous adsorbent, namely [NH][COF-SO ], prepared by ammoniating a SOH-decorated covalent organic framework (COF) enables remarkable performance for uranium extraction. Relative to the pristine SOH-decorated COF (COF-SOH) with uranium adsorption capacity of 360 mg g, the ammoniated counterpart of [NH][COF-SO ] affords ultrahigh uranium uptake up to 851 mg g, creating a 2.4-fold enhancement. Such a value is the highest among all reported porous adsorbents for uranium. Most importantly, a large distribution coefficient, , up to 9.8 × 10 mL g is observed, implying extremely strong affinity toward uranium. Consequently, [NH][COF-SO ] affords highly selective adsorption of uranium over a broad range of metal ions such as S = 821, S = 277, and S = 124, making it as effective uranium adsorbent from seawater, resulting in amazing uranium adsorption capacity of 17.8 mg g. Moreover, its excellent chemostability also make it an effective uranium adsorbent even under rigorous conditions (pH = 1, 8, and 3 m acidity).

摘要

一种理想的铀多孔吸附剂，不仅要有大的吸附容量和高的选择性，而且即使在苛刻条件下也要有广泛的适用性，这是非常令人期待的，但目前仍然极其稀缺。在这项工作中，通过对一种用-SOH修饰的共价有机框架（COF）进行氨化制备的多孔吸附剂，即[NH][COF-SO]，在铀提取方面表现出卓越性能。相对于铀吸附容量为360 mg g的原始-SOH修饰的COF（COF-SOH），氨化后的[NH][COF-SO]的铀吸附量高达851 mg g，提高了2.4倍。这个数值是所有已报道的铀多孔吸附剂中最高的。最重要的是，观察到其分配系数高达9.8×10 mL g，这意味着对铀有极强的亲和力。因此，[NH][COF-SO]在广泛的金属离子中对铀具有高度选择性吸附，例如选择性系数分别为S = 821、S = 277和S = 124，使其成为从海水中有效吸附铀的吸附剂，铀吸附容量达到惊人的17.8 mg g。此外，其出色的化学稳定性也使其即使在苛刻条件下（pH = 1、8和3 m酸度）仍是一种有效的铀吸附剂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e196/6702651/55a0551f8b1d/ADVS-6-1900547-g007.jpg

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用于高效选择性萃取有毒放射性铀离子的氨化共价有机框架（COF）

Ammoniating Covalent Organic Framework (COF) for High-Performance and Selective Extraction of Toxic and Radioactive Uranium Ions.

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