Efficient sorbents based on magnetite coated with siliceous hybrid shells for removal of mercury ions

New sorbents based on magnetite particles coated with siliceous shells were synthesized and tested in the removal of mercury ions from aqueous solutions by magnetic separation. Atomic fluorescence spectroscopy studies performed on water samples treated with these sorbents have shown that the metal i...

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Bibliographic Details
Main Author: Tavares, Daniela S. (author)
Other Authors: Daniel-da-Silva, Ana L. (author), Lopes, Claudia B. (author), Silva, Nuno J. O. (author), Amaral, Vitor S. (author), Rocha, Joao (author), Pereira, Eduarda (author), Trindade, Tito (author)
Format: article
Language:eng
Published: 1000
Subjects:
HEAVY-METAL IONS
AQUEOUS-SOLUTION
NANOPARTICLES
WATER
SURFACE
PARTICLES
GEL
NANOMATERIALS
REMEDIATION
NANOCOMPOSITES
Online Access:http://hdl.handle.net/10773/19635
Country:Portugal
Oai:oai:ria.ua.pt:10773/19635
Description
Summary:New sorbents based on magnetite particles coated with siliceous shells were synthesized and tested in the removal of mercury ions from aqueous solutions by magnetic separation. Atomic fluorescence spectroscopy studies performed on water samples treated with these sorbents have shown that the metal ion concentration decreased to values lower than the guideline values for drinking water. The high adsorption affinity for mercury ions in these materials was attributed to dithiocarbamate groups grafted over the siliceous domains using a new surface modification method. Hence, the magnetic particles have been coated with amorphous silica shells that include thiolate moieties via a hydrolytic co-condensation process using tetraethoxysilane (TEOS) and siloxydithiocarbamate (SiDTC) as the sol-gel precursors. This one-step method for the surface modification of magnetite particles led to sorbents with extensive thiolate moieties that can be then collected by applying an external magnetic field.

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