通过表面改性提高二维碳化钛对钡离子的吸附。

Improving barium ion adsorption on two-dimensional titanium carbide by surface modification.

机构信息

Institute of Nuclear Physics and Chemistry, China Academy of Engineering Physics, 64# Mianshan Road, Mianyang, 621900, Sichuan Province, P. R. China.

出版信息

Dalton Trans. 2018 Jun 25;47(25):8375-8381. doi: 10.1039/c8dt00917a.

DOI:10.1039/c8dt00917a

PMID:29897067

Abstract

Recently, 2D-MXene materials have attracted much attention. However, their low adsorption capacities for metal ions have limited their application in nuclear wastewater disposal. Here, we describe the unprecedentedly high adsorption by Ti3C2Tx for the removal of radionuclides by a simple and efficient surface modification strategy. We have produced an Alk-Ti3C2Tx material possessing desirable properties such as wide layer spacing and abundant active adsorption sites, with excellent ability to remove barium ions from aqueous solution. Maximum Ba2+ adsorption by Alk-Ti3C2Tx is 46.46 mg g-1, almost three times higher than that of unmodified Ti3C2Tx and much higher than that reported in previous studies. The remarkable selectivity for the removal of Ba2+ from simulated mixed nuclear wastewater is highly desirable for application in environmental wastewater treatment.

摘要

最近，二维 MXene 材料引起了广泛关注。然而，其对金属离子的低吸附容量限制了它们在核废水处理中的应用。在这里，我们描述了 Ti3C2Tx 通过一种简单高效的表面改性策略，对放射性核素的吸附能力具有前所未有的提高。我们制备了一种 Alk-Ti3C2Tx 材料，具有理想的性质，如较宽的层间距和丰富的活性吸附位点，具有从水溶液中去除钡离子的优异能力。Alk-Ti3C2Tx 对 Ba2+的最大吸附量为 46.46mg g-1，几乎是未改性 Ti3C2Tx 的三倍，也高于以前研究的报道。从模拟混合核废水中去除 Ba2+的显著选择性非常适合应用于环境废水处理。

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通过表面改性提高二维碳化钛对钡离子的吸附。

Improving barium ion adsorption on two-dimensional titanium carbide by surface modification.

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