一种基于辐射诱导交联的新型离子印迹偕胺肟功能化超高分子量聚乙烯纤维用于铀的选择性吸附。

A novel ion-imprinted amidoxime-functionalized UHMWPE fiber based on radiation-induced crosslinking for selective adsorption of uranium.

作者信息

Ao Junxuan, Zhang Hongjun, Xu Xiao, Yao Fujia, Ma Lin, Zhang Lan, Ye Bangjiao, Li Qingnuan, Xu Lu, Ma Hongjuan

机构信息

Shanghai Institute of Applied Physics, Chinese Academy of Sciences Shanghai 201800 China

University of Chinese Academy of Sciences Beijing 100049 China.

出版信息

RSC Adv. 2019 Sep 10;9(49):28588-28597. doi: 10.1039/c9ra05440e. eCollection 2019 Sep 9.

DOI:10.1039/c9ra05440e

PMID:35529616

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9071111/

Abstract

A novel uranium-imprinted adsorbent (AO-Imp fiber) was prepared by radiation-induced crosslinking of amidoxime-functionalized ultra-high molecular weight polyethylene fiber (AO fiber). The porous structure was characterized by scanning electron microscopy (SEM) and positron annihilation lifetime (PAL) spectroscopy after ion imprinting. This ion-imprinted fiber exhibited enhanced adsorption selectivity for uranium in the form of both UO and [UO(CO)] in batch experiments. Compared with AO fiber, the adsorption capacity of the AO-Imp(250) fiber for uranium increased from 0.36 mg g to 1.00 mg g in simulated seawater and from 5.02 mg g to 12.03 mg g in simulated acid effluent, while its adsorption capacities for other co-existing metal ions were particularly low. This study provides an approach to prepare ion-imprinted adsorbents without introducing crosslinking reagents, which may be a promising method for uranium extraction.

摘要

通过辐射诱导偕胺肟功能化的超高分子量聚乙烯纤维（AO纤维）交联制备了一种新型铀印迹吸附剂（AO-Imp纤维）。离子印迹后，通过扫描电子显微镜（SEM）和正电子湮没寿命（PAL）光谱对其多孔结构进行了表征。在分批实验中，这种离子印迹纤维对UO 和[UO(CO)]形式的铀表现出增强的吸附选择性。与AO纤维相比，AO-Imp(250)纤维在模拟海水中对铀的吸附容量从0.36 mg g提高到1.00 mg g，在模拟酸性废水中从5.02 mg g提高到12.03 mg g，而其对其他共存金属离子的吸附容量特别低。本研究提供了一种无需引入交联剂制备离子印迹吸附剂的方法，这可能是一种有前景的铀提取方法。

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一种基于辐射诱导交联的新型离子印迹偕胺肟功能化超高分子量聚乙烯纤维用于铀的选择性吸附。

A novel ion-imprinted amidoxime-functionalized UHMWPE fiber based on radiation-induced crosslinking for selective adsorption of uranium.

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