用于选择性检测和还原分离铀的氧化还原活性 sp2-c 连接金属共价有机框架

Jin-Lan Liu , Zhi-Hai Peng , Jia-Xin Qi , Cheng-Rong Zhang , Zhen-Wen Zhang , Li Zhang , Ru-Ping Liang , Jian-Ding Qiu
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引用次数: 0

摘要

开发一种可同时检测和回收铀的材料具有经济上的可取性。在此,通过克诺文纳格尔反应,将具有刚性结构的金属单晶(Cu3(PyCA)3)与氰基单体(BTAN)缩合,构建了一种 CC 桥接的二维金属-共价有机框架(Cu-BTAN-AO MCOF),可同时检测和吸附铀。孔隙中的脒肟基团和框架中存在的不饱和 Cu(I)促进了铀酰离子对脒肟基团的吸附,从而通过光诱导电子转移(PET)机制导致荧光淬灭,实现了低至 167 nM 的铀酰离子检测限。此外,Cu-BTAN-AO 在捕获废水中的铀方面表现出卓越的效率,其特点是快速的动力学和出色的选择性。值得注意的是,Cu-BTAN-AO 是利用 MCOF 中的金属中心和官能团同时检测、吸附和化学还原铀的第一个实例,这表明 Cu-BTAN-AO 在检测和回收含铀废水方面具有巨大潜力。这种设计策略也可用于推进其他重要金属离子的传感和能源材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Redox-active sp2-c connected metal covalent organic frameworks for selective detection and reductive separation of uranium

It is economically desirable to develop a material that can simultaneously detect and recover uranium. Herein, a CC-bridged two-dimensional metal-covalent organic framework (Cu-BTAN-AO MCOF) was constructed by condensation of metal single crystals with a rigid structure (Cu3(PyCA)3) and cyano monomers (BTAN) via Knoevenagel reaction for simultaneous detection and adsorption of uranium. The amidoxime group within the pore and the presence of unsaturated Cu(I) in the framework facilitate the adsorption of uranyl ions onto the amidoxime group, leading to fluorescence quenching via the photoinduced electron transfer (PET) mechanism, achieving a detection limit of as low as 167 nM uranyl ions. Furthermore, Cu-BTAN-AO demonstrates exceptional efficiency in capturing uranium from wastewater characterized by rapid kinetics and superior selectivity. It is noteworthy that Cu-BTAN-AO is the first example of simultaneous detection, adsorption and chemical reduction of uranium using metal centers and functional groups in MCOF, indicating that Cu-BTAN-AO has great potential for the detection and recovery of uranium-containing wastewater. This design strategy may also be applicable to advancing sensing and energy materials for other important metal ions.

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