期刊
RSC ADVANCES
卷 4, 期 71, 页码 37600-37608出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c4ra05397d
关键词
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资金
- Program for Changjiang Scholars and Innovative Research Team in University [IRT13026]
- National Natural Science Foundation of China [51103079, 9122611]
In this study, a novel kind of core-shell-structured magnetic microsphere functionalized with potassium titanium ferrocyanide (KTiFC) was developed for the highly efficient removal of radioactive cesium from seawater. During the synthesis, a compact silica protective interlayer was deliberately constructed to stabilize the nano-sized magnetite cores, while preventing erosion under harsh environmental conditions. Because of high ion exchange capacity of the KTiFC functional layer, the magnetic microspheres exhibited high removal efficiency (>= 97.7%) of radiocesium from Cs-137-spiked solutions (3000-35 000 Bq L-1) and contaminated seawater. Batch experiments revealed that adsorption equilibrium was rapidly achieved within 30 min and the maximum adsorption capacity was up to 43.09 mg g(-1). Kinetic models and Langmuir/Freundlich adsorption isotherm equations were used to fit the experiment data for describing the adsorption process. Because of the favorable magnetic property, a facile separation and reclamation of the magnetic microspheres from aqueous solution was achieved under an external magnetic field. Moreover, from a practical viewpoint, the magnetic microspheres were proven to have good re-dispersion properties and long-term stability against strong HNO3 solutions (1.0 mol L-1). These magnetic microspheres are believed to hold great promise for the clean-up of radiocesium contaminated water around nuclear facilities and/or after nuclear accidents.
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