基于离子交换和表面引发接枝聚合制备阴离子表面印迹材料及其识别特性研究

doi:10.6023/A120050230

化学学报 ›› 2012, Vol. 70 ›› Issue (17): 1831-1838.DOI: 10.6023/A120050230 上一篇下一篇

研究论文

基于离子交换和表面引发接枝聚合制备阴离子表面印迹材料及其识别特性研究

杜俊玫^a, 高保娇^a, 黄小卫^b, 张永奇^b, 王明娟^a

a 中北大学化工与环境学院化学工程系太原 030051;
b 北京有色金属研究总院北京 100088

投稿日期:2012-05-28 发布日期:2012-07-13
通讯作者: 高保娇
基金资助:
项目受国家青年科学基金(No. 51104023)资助.

Preparing Surface Anion-imprinted Material Based on Ion Exchange and Surface-initiated Graft-polymerization and Studies on Its Recognition Character

Du Junmei^a, Gao Baojiao^a, Huang Xiaowei^b, Zhang Yongqi^b, Wang Mingjuan^a

a Chemical Engineering Department, North University of China, Taiyuan 030051;
b General Research Institute for Nonferrous Metals, Beijing 100088

Received:2012-05-28 Published:2012-07-13
Supported by:
Project supported by the National Science Foundation for Young Scientists of China (No. 51104023).

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摘要/Abstract

建立了一种新的离子表面印迹(IIP)方法. 使用偶联剂γ-氨丙基三甲氧基硅烷(AMPS)对微米级硅胶微粒进行表面改性, 制得表面含有氨基的改性硅胶AMPS-SiO₂. 凭借离子交换作用, 阳离子单体甲基丙烯酰氧乙基三甲基氯化铵(DMC)结合在模板离子磷酸根周围; 改性硅胶AMPS-SiO₂表面的氨基与溶液中的过硫酸盐构成氧化还原引发体系, 使DMC及交联剂N,N'-亚甲基双丙烯酰胺(MBA)在硅胶微粒表面发生接枝交联聚合, 从而实现了磷酸根离子的表面印迹, 制得了阴离子表面印迹材料IIP-PDMC/SiO₂. 采用静态与动态两种方法, 考察研究了IIP-PDMC/SiO₂对PO₄^3-离子的识别特性与结合性能. 研究结果表明, 离子表面印迹材料IIP-PDMC/SiO₂对PO₄^3-离子具有特异的识别选择性与优良的结合亲和性, 相对于对比离子高锰酸根离子, IIP-PDMC/SiO₂对PO₄^3-离子的识别选择性系数为9.58.

关键词: 离子交换, 表面引发接枝聚合, 离子表面印迹, 硅胶, 磷酸根, 离子识别

The molecularly imprinted polymers (MIPs) synthesized by conventional bulky imprinting methods suffer from several limitations, such as time-consuming preparation process, poor site accessibility to the target molecules and the lower binding capacity for the target molecules. To overcome these problems in bulking imprinting, in this work, a novel surface-ion imprinting method that not only is simple but also highly effective, is put forward and found. The coupling agent γ-aminopropyltrimethoxysilane (AMPS) was bond onto the surface of silica gel particles, and amino groups were introduced onto the surfaces of silica gel particles, obtaining the modified particles AMPS-SiO₂. In aqueous solution, the molecules of the cationic monomer methacryloxyethyltrimethyl ammonium chloride (DMC) were first combined around the template ion, phosphate ion, by right of ion exchange action. A redox initiating system was constructed by the amino groups on AMPS-SiO₂ and ammonium persulphate in the solution, and free radicals were produced on the surfaces of silica gel particles. These free radicals initiated the monomer DMC and the crosslinker N,N'-methylene bisacrylamide (MBA) to be graft-copolymerized and crosslinked, and the surface-imprinting of phosphate ion was realized. After removing the template ions, PO₄^3- ion surface-imprinted material IIP-PDMC/SiO₂ was obtained. Both permanganate ion, MnO₄^- ion, and PO₄^3- ion are isoelectronic bodies. Their chemical structures are similar and their configurations are the same, but their sizes are different. In this work, MnO₄^- ion was used as contrast ion, and both static and dynamic methods were adopted to study the binding properties and ion recognition character of IIP-PDMC/SiO₂ for PO₄^3- ion. The experiment results show that IIP-PDMC/SiO₂ have specific recognition selectivity and excellent binding affinity for PO₄^3- ion, and its selectivity selectivity coefficients for PO₄^3- ion with respect of MnO₄^- ion is 9.58. Besides, IIP-PDMC/SiO₂ has excellent elution property, with NaCl solution as eluent, the desorption ratio of PO₄^3- ion reach 99.53% in 20 BV.

Key words: ion exchange, surface-initiated graft-polymerization, surface ion-imprinting, silica gel, phosphate ion, ion recognition

引用此文

杜俊玫, 高保娇, 黄小卫, 张永奇, 王明娟. 基于离子交换和表面引发接枝聚合制备阴离子表面印迹材料及其识别特性研究[J]. 化学学报, 2012, 70(17): 1831-1838.

Du Junmei, Gao Baojiao, Huang Xiaowei, Zhang Yongqi, Wang Mingjuan. Preparing Surface Anion-imprinted Material Based on Ion Exchange and Surface-initiated Graft-polymerization and Studies on Its Recognition Character[J]. Acta Chimica Sinica, 2012, 70(17): 1831-1838.

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基于离子交换和表面引发接枝聚合制备阴离子表面印迹材料及其识别特性研究

Preparing Surface Anion-imprinted Material Based on Ion Exchange and Surface-initiated Graft-polymerization and Studies on Its Recognition Character

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