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使用由1,10-菲咯啉制备的功能性介孔碳捕获过渡金属离子

Transition metal ion capture using functional mesoporous carbon made with 1,10-phenanthroline.

作者信息

Chouyyok Wilaiwan, Yantasee Wassana, Shin Yongsoon, Grudzien Rafal M, Fryxell Glen E

机构信息

Pacific Northwest National Laboratory, P.O. Box 999, Richland, WA 99352, United States.

出版信息

Inorg Chem Commun. 2009 Nov;12(11):1099-1103. doi: 10.1016/j.inoche.2009.08.031.

DOI:10.1016/j.inoche.2009.08.031
PMID:23762013
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3677781/
Abstract

Functional mesoporous carbon has been built using 1,10-phenanthroline as the fundamental building block, resulting in a nanoporous, high surface area sorbent capable of selectively binding transition metal ions. This material had a specific surface area of 870 m/g, an average pore size of about 30 Å, and contained as much as 8.2 wt% N. Under acidic conditions, where the 1,10-phenanthroline ligand is protonated, this material was found to be an effective anion exchange material for transition metal anions like [Formula: see text] and [Formula: see text]. 1,10-Phenanthroline functionalized mesoporous carbon ("Phen-FMC") was found to have a high affinity for Cu(II), even down to a pH of 1. At pHs above 5, Phen-FMC was found to bind a variety of transition metal cations (e.g. Co(II), Ni(II), Zn(II), etc.) from filtered ground water, river water and seawater. Phen-FMC displayed rapid sorption kinetics with Co(II) in filtered river water, reaching equilibrium in less than an hour, and easily lowering the [Co(II)] to sub-ppb levels. Phen-FMC was found to be more effective for transition metal ion capture than ion-exchange resin or activated carbon.

摘要

以1,10 - 菲咯啉作为基本构建单元构建了功能化介孔碳,得到了一种具有纳米孔、高比表面积的吸附剂,能够选择性地结合过渡金属离子。这种材料的比表面积为870 m²/g,平均孔径约为30 Å,且含有高达8.2 wt%的氮。在酸性条件下,1,10 - 菲咯啉配体发生质子化,此时发现该材料是一种有效的阴离子交换材料,可用于结合诸如[化学式:见原文]和[化学式:见原文]等过渡金属阴离子。发现1,10 - 菲咯啉功能化介孔碳(“Phen - FMC”)对Cu(II)具有高亲和力,甚至在pH值为1时也是如此。在pH值高于5时,发现Phen - FMC能从过滤后的地下水、河水和海水中结合多种过渡金属阳离子(如Co(II)、Ni(II)、Zn(II)等)。Phen - FMC在过滤后的河水中对Co(II)表现出快速的吸附动力学,不到一小时即可达到平衡,并能轻松将[Co(II)]降低至亚ppb水平。发现Phen - FMC在捕获过渡金属离子方面比离子交换树脂或活性炭更有效。

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