以磁性纳米Fe3 O4为核,利用苯乙烯(St)聚合对其进行包覆,并进一步对表面进行氯取代、乙二胺取代及氯乙酸取代反应,制备了 Fe3 O4/PS‐EDTA 纳米磁性复合微球。利用扫描电子显微镜(SEM )、X射线衍射分析(XRD)、热重(TGA)分析、傅里叶变换红外(FT‐IR)光谱仪、紫外分光光度计等对 Fe3 O4/PS‐EDTA微球性能进行了表征。结果表明,EDTA 有效地以化学键合方式连接到纳米磁性Fe3 O4/PS 表面,且粒径均匀。 Fe3 O4/PS‐EDTA 对 Cu2+表现出了良好的吸附性能,饱和吸附量为98.59 m g/g ,吸附等温数据符合Langmuir模型,吸附动力学符合拟二级反应动力学模型。
The nano magnetic composite microspheres(Fe3 O4/PS‐EDTA)were prepared by polymerization and substitution reaction .First ,the Fe3 O4/PS particles were prepared through polymerization of styrene(st) in the surface of Fe3 O4 S.econd ,hydrogen atoms of Fe3 O4/PS were substituted in proper order by chlorine ,ehylenedia‐mine and acetic acid .The synthesized Fe3 O4/PS‐EDTA were characterized by scanning electron microscopy (SEM ) ,X‐ray diffraction ,thermogravimetric (TGA ) analysis ,Fourier transform infrared (FT‐IR) spectrome‐ter and ultraviolet spectrophotometer .Results show that EDTA were effectively connected with chemical bond to the surface of nano‐magnetic Fe3 O4/PS with uniform particle size .The adsorption dynamic process fit the Langmuir isotherms well with a maximum adsorption capacity of 98 5.9 mg/g for Cu2+ and the adsorption kinet‐ics followed the mechanism of the pseudo‐second order equation .
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