Synthesis, characterization and application of titanium oxide nanocomposites for removal of radioactive cesium, cobalt and europium ions

[Display omitted] New nanocomposite material containing TiO2/Poly (acrylamide–styrene sodium sulfonate) [TiO2/(P (AAm–SSS)] was prepared by in-situ intercalative polymerization of poly acrylamide (PAAm) and styrene sodium sulfonate (SSS) in the presence of TiO2 nanoparticles as inorganic filler. N,...

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Bibliographic Details
Published in:Journal of colloid and interface science 2015-07, Vol.450, p.17-25
Main Authors: Borai, E.H., Breky, M.M.E., Sayed, M.S., Abo-Aly, M.M.
Format: Article
Language:English
Subjects:
Nanocomposite
Radioactive metal ions
TiO2
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Summary:[Display omitted] New nanocomposite material containing TiO2/Poly (acrylamide–styrene sodium sulfonate) [TiO2/(P (AAm–SSS)] was prepared by in-situ intercalative polymerization of poly acrylamide (PAAm) and styrene sodium sulfonate (SSS) in the presence of TiO2 nanoparticles as inorganic filler. N, N-methylene bis acrylamide (MBA) was used as a cross linker. The polymerization process was performed using γ-radiation as reaction initiator. Moreover, new nanocomposite material containing poly styrene–TiO2 (PS–TiO2) was also prepared by ionic polymerization method. Styrene was catalytically polymerized by Ti4+ via an ionic polymerization route to produce polystyrene (PS). The structure characteristics of the nanocomposites were investigated by XRD, TGA, SEM, surface area, and FTIR. The nanoparticles and nanocomposites were investigated for removal of some metal ions from aqueous solutions. The effective key parameters on the sorption behavior of radioactive cesium (Cs+), cobalt (Co2+) and europium (Eu3+) were investigated using batch equilibrium technique with respect to solution pH and contact time. The obtained results revealed that the equilibrium for Cs+, Co2+ and Eu3+ is reached at 2–3h for all nanocomposites. The data indicated that there is no significant change in the uptake between TiO2 nanoparticles and TiO2–PS. On the contrary, the uptake process is significantly improved using TiO2/(P (AAm–SSS) nanocomposite and the maximum experimental retention capacities for Cs+, Co2+ and Eu3+ were found to be 120, 100.9 and 85.7mg/g, respectively.
ISSN:0021-9797
1095-7103
DOI:10.1016/j.jcis.2015.02.062