摘 要: 分子印迹技术具有良好的构效预定性、特异识别性和广泛实用性。制备出的分子印迹聚合物具有预定的分子识别性、独特的物理化学稳定性、制备简单和可重复使用等优点,因此成为了制备功能分离材料的一个重要发展方向。为此,本研究以制备凹土表面印迹型CO2吸附剂为目的,考查了不同模板、溶剂、单体、偶联剂等对凹土基印迹型吸附剂的影响。结果显示,当模板为乙二酸, 溶剂为乙腈,单体为丙烯酰胺,偶联剂为EGDMA时 ,对CO2 吸附性最好。并且该吸附剂对CO2最大吸附量为4.8945mmol/g。66153
毕业论文关键词:吸附剂,二氧化碳,分子印迹
Abstract: Molecular imprinting technique has good performance in predetermination, specific recognition and practicability. As molecularly imprinted polymers have advantages in predetermined molecular recognition, unique physical and chemical stability, simple preparation and reusability, the preparation of functional materials for separation has become an important development trend. Therefore, for the purpose of preparing imprinted carbon dioxide adsorbents based on the surface of attapulgite clay, this study investigated the influence of different templates, solvents, monomers and coupling agents on the attapulgite-based imprinted adsorbents. The experimental results showed that the best adsorption performance for carbon dioxide was achieved when taking oxalic acid, acetonitrile, acrylamide and EGDMA as the template, the solvent, the monomer and the coupling agent respectively. And the maximum adsorption capacity for carbon dioxide was 4.8945mmol/g.
Key words: adsorbent, Carbon dioxide, molecular imprinting
目 录
摘 要 1
Abstract 2
1 文献综述 4
1.1 分子印迹技术概述 4
1.2 分子印迹技术的基本原理 4
1.3 分子印迹技术的分类 5
1.4 分子印迹聚合物的制备要素 5
1.5分子印迹聚合物的应用 7
1.6 凹凸棒粘土概述和性能 7
1.7 研究的目的和意义 7
2 实验部分 8
2.1 实验试剂及仪器 8
2.2 吸附剂的制备 9
2.3 吸附剂的表征方法 9
2.3.1 FTIR分析 9
2.3.2 低温N2吸附/脱附分析 10
2.3.3 SEM分析 10
2.4平衡吸附量实验测定装置 10
2.5 静态吸附等温线的测定 11
3 结果与讨论 12
3.1吸附剂的制备机理 12
3.2红外光谱(FTIR)分析 13
3.3扫描电镜(SEM)分析 14
3.4低温N2吸附/脱附(BET)分析 16
3.5 吸附剂对CO2的吸附性能 19
结 论 20
参 考 文 献 21
致 谢