基于新功能单体与纳米结构的稀土离子印迹材料研究

项目名称： 基于新功能单体与纳米结构的稀土离子印迹材料研究

项目编号： No.21465025

项目类型： 地区科学基金项目

立项/批准年度： 2015

项目学科： 数理科学和化学

项目作者： 曹秋娥

作者单位： 云南大学

项目金额： 50万元

中文摘要： 针对稀土离子印迹聚合物现有研究中存在聚合方法与功能单体种类单一，而多数稀土离子的印迹材料还未见研究等问题，本项目拟依据软硬酸碱理论，并借鉴稀土离子萃取剂与螯合剂的研究成果，引入含氧杂环、磷酸基、冠醚或杯芳烃，通过计算机辅助设计技术，设计、合成针对特定稀土离子的功能单体。在此基础上，结合纳米技术与表面印迹技术，引入牺牲模板法和核-壳聚合法，在系统优化材料的制备条件后，制备出对稀土特别是其印迹材料还未见报道的Ce、Pr、Gd、Tb和Sc等具有理想识别性能、结合容量和传质速度的纳米结构印迹材料，表征其结构，研究其识别机理，并用其建立分离、富集稀土离子的固相萃取与液相色谱分离方法，用于矿产、二次资源或环境样品等复杂体系中稀土的分离、富集及样品前处理，为离子印迹技术及稀土的分离富集与稀土二次资源的循环利用提供参考。

中文关键词： 分子印迹技术；稀土离子；纳米结构材料；离子印迹固相萃取；分离富集

英文摘要： There are several studies have been published with respect to the preparation and applications of ion imprinted polymers (IIP) for rare earth. However, there is almost no reports involved the ion imprinted materials for a lot of the rare earth ions, and almost the same polymerization method as well as the functional monomer have been used in the preparation of rare earth ion imprinted polymers in the studies reported. According to the problems described as above, the surface molecular imprinting technique integrated with the nanotechnology and application of the new compounds, which will be designed and prepared in this project, as functional monomer is considered for the preparation of rare-earth ion imprinted materials with nanostructured. The rare-earth ions which have not been studied in the ion-imprinting technique such as Ce, Pr, Gd, Tb and Sc, et al, are selected in this project as the objects for study. The functional monomer with oxygenous heterocyclic, phosphate group, crown ether and calixarene will be designed and prepared by the computer aided design technique according to the theory of hard and soft acids and bases (HSAB) together with the results obtained from the studies on extractant and chelating agent for rare earth. The ion imprinting technique for the preparation of nanostructured imprinted materials including the method using template as the sacrificial material and core-shell polymerization will be studied, and the conditions for the preparation of ion imprinted materials will be optimized. The structure, properties and mechanization of these materials will be investigated.Based on the above investigations, some solid phase extraction and liquid chromatography methods with high selectivity and recovery will be developed and used for the separation and enrichment of rare earth from minerals and discard materials or as a sample pretreatment technology for the determination of rare earth.

英文关键词： molecular imprinting technique;rare earth ions;nanostructured materials;solid phase extraction based ion-imprinted polymers;separation and enrichment