Magnetic nanoparticles coated with aminated polymer brush as a novel material for effective removal of Pb(II) ions from aqueous environments

Magnetic nanoparticles coated with aminated polymer brush as a novel material for effective removal of Pb(II) ions from aqueous environments

In the present study, a poly (vinylbenzyl chloride) grafted Fe 3 O 4 nanoparticle (Fe 3 O 4 @PVBC) was prepared by surface-initiated reversible addition fragmentation chain transfer (SI-RAFT) polymerization and subsequently coated with tris (aminoethyl) amine (TAEA). Then, Fe 3 O 4 @PVBC-TAEA nanopa...

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Bibliographic Details
Published in:Environmental science and pollution research international Vol. 26; no. 20; pp. 20454 - 20468
Main Authors: Yılmaz, Şakir, Zengin, Adem, Akbulut, Yeliz, Şahan, Tekin
Format: Journal Article
Language:English
Published: Berlin/Heidelberg Springer Berlin Heidelberg 01-07-2019
Springer Nature B.V
Subjects:
Addition polymerization
Adsorbents
Adsorption
Aquatic Pollution
Aqueous environments
Aqueous solutions
Atmospheric Protection/Air Quality Control/Air Pollution
Chain transfer
Dosage
Earth and Environmental Science
Ecotoxicology
Electrons
Environment
Environmental Chemistry
Environmental Health
Environmental science
Iron oxides
Isotherms
Lead
Nanoparticles
Optimization
pH effects
Photoelectron spectroscopy
Photoelectrons
Polymerization
Polymers
Research Article
Response surface methodology
Surface chemistry
Transmission electron microscopy
Waste Water Technology
Water Management
Water Pollution Control
X ray photoelectron spectroscopy
Magnetic nanoparticle
Lead
Polymer brush
Response surface methodology
Adsorption
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Summary:In the present study, a poly (vinylbenzyl chloride) grafted Fe 3 O 4 nanoparticle (Fe 3 O 4 @PVBC) was prepared by surface-initiated reversible addition fragmentation chain transfer (SI-RAFT) polymerization and subsequently coated with tris (aminoethyl) amine (TAEA). Then, Fe 3 O 4 @PVBC-TAEA nanoparticles were utilized as a novel adsorbent for removal of Pb(II) from aqueous media and optimal adsorption conditions were determined with response surface methodology (RSM). The used adsorbent was characterized by using X-ray photoelectron spectroscopy (XPS), transmission electron microscopy (TEM), and vibrating sample magnetometer (VSM). RSM with central composite design (CCD) was carried out to evaluate the effect of initial pH, initial Pb(II) concentration ( C 0 , mg/L), adsorbent dosage (mg), and contact time (min). The optimum initial pH, C 0 , adsorbent dosage, and contact time were found to be 5.88, 46.51 mg/L, 17.41 mg, and 108.21 min, respectively. The maximum removal efficiency and adsorption capacity were 97.07% and 129.65 mg/g under these conditions, respectively. The kinetic data revealed that the adsorption mechanism could be best explained by the pseudo-second-order and Weber-Morris models. The isotherm studies found that both the Langmuir and Freundlich isotherm models fitted the experimental data well. The thermodynamic analysis indicated that the adsorption nature is exothermic, applicable, and spontaneous.
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ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-019-05360-2