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Merrifield树脂负载咪唑基离子液体磁性微球的制备与表征
引用本文:靳丹萍,丁运生,熊仁艳. Merrifield树脂负载咪唑基离子液体磁性微球的制备与表征[J]. 应用化学, 2010, 27(11): 1252-1255. DOI: 10.3724/SP.J.1095.2010.00077
作者姓名:靳丹萍  丁运生  熊仁艳
作者单位:(1.合肥工业大学化工学院高分子材料与化工研究所 合肥 230009;2.可控化学与材料化工安徽省重点实验室 合肥 230009)
基金项目:国家自然科学基金,安徽省自然科学基金
摘    要:制备了Merrifield树脂负载丙酸甲酯基咪唑基离子液体磁性微球。 采用FT-IR和XRD对结构进行了表征,采用TGA和VSM分别进行了热稳定性和磁性测试。 结果表明,丙酸甲酯基咪唑基离子液体成功负载到Merrifield树脂微球上,并通过共沉淀的方法实现了微球的磁性化,其磁组分为FeOOH和γ-Fe2O3混合物。 磁性微球的热稳定性优于无磁性的Merrifield树脂负载丙酸甲酯基咪唑基离子液体微球,在200 ℃以下不发生分解。 磁性微球的磁化强度为11.364 emu/g,显示出超顺磁性,无外磁场存在时不发生团聚。 沉降实验结果表明,在磁感应强度为3.0×10-4 T电磁场作用下,磁性微球10 s内即可从水相中基本分离完全,而没有磁场作用时磁性微球粒子基本不从水相中分离。

关 键 词:离子液体  磁性微球  Merrifield树脂  负载  
收稿时间:2010-01-29
修稿时间:2010-04-20

Preparation and Characterization of Magnetic Microspheres from Merrifield Resin Immobilized by Imidazolium Ionic Liquid
JIN Dan-Ping,DING Yun-Sheng,XIONG Ren-Yan. Preparation and Characterization of Magnetic Microspheres from Merrifield Resin Immobilized by Imidazolium Ionic Liquid[J]. Chinese Journal of Applied Chemistry, 2010, 27(11): 1252-1255. DOI: 10.3724/SP.J.1095.2010.00077
Authors:JIN Dan-Ping  DING Yun-Sheng  XIONG Ren-Yan
Affiliation:(1.Institute of Chemical Engineering and Polymer Materials,School of ;Chemical Engineering,Hefei University of Technology,Hefei 230009;2.Anhui Key Laboratory of Controllable Chemistry Reaction & Material Chemical Engineering,Hefei 230009)
Abstract:Merrifield resin microspheres immobilized by methoxycarbonylethyl imidazolium ionic liquid(IL) with magnetism were successfully prepared. We chose FeOOH and γ-Fe2O3 as the magnetic resource and employed the simple co-precipitation method to realize the synthesis, which is feasible and will lower the overall cost for further industrial scale application if possible. In the standpoint of comparison, the IL loaded on the merrifield resin with non-magnetic was also synthesized. The structures and properties of these two kinds of microspheres were investigated by vibrating sample magnetometer(VSM), Fourier transform infrared spectroscopy(FT-IR), X-ray diffraction(XRD), thermogravimetric analysis(TGA), as well as other performance tests. The testing results validate the structures of the two microspheres with our expectation, and indicate that the thermal stability of magnetic microspheres is superior to the non-magnetic one, so its decomposition does not occur below 200 ℃. The magnetic microspheres showed super-paramagnetic and did not form aggregates when the external magnetic field was absent. Magnetic separation of the magnetic microspheres has also been carried out in a 3.0×10-4 T single direction electromagnetic field to illustrate the predominant separation efficiency of the magnetic one. The results showed that the magnetic particles could be completely separated from water within 10 s in 3.0×10-4 T electromagnetic field.
Keywords:ionic liquids  magnetic microspheres  Merrifield resin  loading
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