fe3o4 -高岭土复合材料:浸渍对水中Cd(II)和Pb(II)去除的影响

Q4 Earth and Planetary Sciences

Mineralogia Pub Date : 2017-12-01 DOI:10.1515/mipo-2017-0014

P. Maziarz, J. Matusik

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引用次数: 7

摘要

摘要:本研究采用化学沉淀法合成了高岭土- fe3o4复合材料，以促进吸附剂与水溶液的磁分离。研究了fe3o4相对高岭土吸附性能的影响。x射线衍射(XRD)结果证实了fe3o4颗粒在高岭土表面的成功沉积。结果表明，fe3o4颗粒涂层增强了高岭土对Cd(II)和Pb(II)的吸附亲和力。当复合材料表面有10%的Fe3O4沉积时，其吸附量最高。在这种情况下，对Cd(II)和Pb(II)的吸附量分别为33和112 mmol·kg-1。零电荷点(pHPZC)和解吸结果表明，金属的去除机制主要与高岭土或fe3o4相羟基的化学吸附反应有关。由于高岭土- fe3o4复合材料的阳离子交换容量(CEC)较低，离子交换的重要性有限。

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Halloysite Composites with Fe3O4Particles: The Effect of Impregnation on the Removal of Aqueous Cd(II) And Pb(II)

Abstract In this study, halloysite-Fe3O4composites were synthesized by a chemical-precipitation method to facilitate magnetic separation of the sorbents from aqueous solution. The research focused on the effect of Fe3O4phase on the halloysite sorption properties. The X-ray diffraction (XRD) results confirmed successful deposition of Fe3O4particles on a halloysite surface. They showed that the coating with Fe3O4particles enhanced the halloysite adsorption affinity toward Cd(II) and Pb(II). The highest adsorption capacity was determined for the composites having 10% of the surface deposited with Fe3O4. In this case, the adsorption capacity for Cd(II) and Pb(II) was 33 and 112 mmol·kg-1, respectively. The point of zero charge (pHPZC) and desorption results indicated that the removal mechanism of metals is mainly related to chemisorption involving reaction with hydroxyls of either halloysite or Fe3O4phase. The ion exchange is of limited importance due to the low cation exchange capacity (CEC) of halloysite - Fe3O4composites.

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来源期刊

Mineralogia Earth and Planetary Sciences-Geology

CiteScore

0.80

自引率

0.00%

发文量

期刊介绍： - original papers in the scope of widely understood mineralogical sciences (mineralogy, petrology, geochemistry, environmental sciences, applied mineralogy etc.) - research articles, short communications, mini-reviews and review articles