多壁碳纳米管/氧化铁磁性复合材料对Ni(II)和Sr(II)的吸附行为

Adsorption behavior of multiwall carbon nanotube/iron oxide magnetic composites for Ni(II) and Sr(II).

作者信息

Chen Changlun, Hu Jun, Shao Dadong, Li Jiaxing, Wang Xiangke

机构信息

Institute of Plasma Physics, Chinese Academy of Sciences, Hefei, Anhui, PR China.

出版信息

J Hazard Mater. 2009 May 30;164(2-3):923-8. doi: 10.1016/j.jhazmat.2008.08.089. Epub 2008 Sep 2.

DOI:10.1016/j.jhazmat.2008.08.089

PMID:18842337

Abstract

Multiwall carbon nanotube (MWCNT)/iron oxide magnetic composites were prepared, and were characterized by scan electron microscopy using a field emission scanning electron microscope, X-ray diffraction and vibrating sample magnetometer. The adsorptions of Ni(II) and Sr(II) onto MWCNT/iron oxide magnetic composites were studied as a function of pH and ionic strength. The results show that the adsorptions of Ni(II) and Sr(II) on the magnetic composites is strongly dependent on pH and ionic strength. The adsorption capacity of the magnetic composites is much higher than that of MWCNTs and iron oxides. The solid magnetic composites can be separated from the solution by a magnetic process. The Langmuir model fits the adsorption isotherm data of Ni(II) better than the Freundlich model. Results of desorption study shows that Ni(II) adsorbed onto the magnetic composites can be easily desorbed at pH<2.0. MWCNT/iron oxide magnetic composites may be a promising candidate for pre-concentration and solidification of heavy metal ions and radionuclides from large volumes of aqueous solution, as required for remediation purposes.

摘要

制备了多壁碳纳米管（MWCNT）/氧化铁磁性复合材料，并用场发射扫描电子显微镜进行扫描电子显微镜表征、X射线衍射和振动样品磁强计对其进行了表征。研究了Ni(II)和Sr(II)在MWCNT/氧化铁磁性复合材料上的吸附随pH值和离子强度的变化。结果表明，Ni(II)和Sr(II)在磁性复合材料上的吸附强烈依赖于pH值和离子强度。磁性复合材料的吸附容量远高于MWCNT和氧化铁。固体磁性复合材料可通过磁分离过程从溶液中分离出来。Langmuir模型比Freundlich模型更适合Ni(II)的吸附等温线数据。解吸研究结果表明，吸附在磁性复合材料上的Ni(II)在pH<2.0时很容易解吸。MWCNT/氧化铁磁性复合材料可能是从大量水溶液中预浓缩和固化重金属离子和放射性核素的有前途的候选材料，这是修复目的所需要的。

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多壁碳纳米管/氧化铁磁性复合材料对Ni(II)和Sr(II)的吸附行为

Adsorption behavior of multiwall carbon nanotube/iron oxide magnetic composites for Ni(II) and Sr(II).

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