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Efficient removal of phosphate from aqueous solution using novel magnetic nanocomposites with Fe_3O_4@SiO_2 core and mesoporous CeO_2 shell 被引量:3
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作者 丁鸿 赵燕凌 +5 位作者 段倩林 王俊文 张侃 丁光月 谢鲜梅 丁传敏 《Journal of Rare Earths》 SCIE EI CAS CSCD 2017年第10期984-994,共11页
Fe_3O_4@SiO_2 magnetic nanoparticles functionalized with mesoporous cerium oxide(Fe_3O_4@SiO_2@mCeO_2) was fabricated as a novel adsorbent to remove phosphate from water. The prepared adsorbent was characterized by ... Fe_3O_4@SiO_2 magnetic nanoparticles functionalized with mesoporous cerium oxide(Fe_3O_4@SiO_2@mCeO_2) was fabricated as a novel adsorbent to remove phosphate from water. The prepared adsorbent was characterized by X-ray diffractometry(XRD), transmission electron microscopy(TEM), nitrogen adsorption-desorption and vibrating sample magnetometry(VSM), and its phosphate removal performance was investigated through the batch adsorption studies. Characterization results confirmed that mesoporous cerium oxide was successfully assembled on the surface of Fe_3O_4@SiO_2 nanoparticles, and the synthesized adsorbent possessed a typical core-shell structure with a BET surface area of 195 m^2/g, accessible mesopores of 2.6 nm, and the saturation magnetization of 21.11 emu/g. The newly developed adsorbent had an excellent performance in adsorbing phosphate, and its maximum adsorption capacity calculated from the Langmuir model was 64.07 mg/g. The adsorption was fast, and the kinetic data could be best fitted with the pseudo-second-order kinetic model. The phosphate removal decreased with the increase of solution pH(2 to 10), while the higher ionic strength slightly promoted the phosphate adsorption. The presence of Cl~– and SO^(2–)_4 could enhance the adsorption of phosphate whereas HCO~–_ 3 had interfering effect on the phosphate adsorption. The adsorption mechanism was studied by analyzing Zeta potential and FTIR spectroscopy, and the results indicated that the replacement of the surface hydroxyl groups by phosphate ions with the formation of inner-sphere complex played a key role in the phosphate adsorption. The spent adsorbent could be quickly separated from aqueous solution with the assistance of the external magnetic field, and the adsorbed phosphate could be effectively desorbed using a 1 mol/L NaOH solution. 展开更多
关键词 magnetic nanoparticles mesoporous cerium oxide phosphate removal adsorption mechanism rare earths
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