有机/无机复合介孔膜支撑离子液体/水界面上离子转移反应的研究 摘要:本文使用聚碳酸酯膜(PC膜)作为硬模板,结合抽滤法、微波法和萃取脱模法,制备MCM-41/PC型有机/无机复合介孔膜及SBA-15/PC型有机/无机复合介孔膜。并利用扫描电镜(SEM)对上述膜材料进行了表征,结果表明膜的孔道里面成功组装了介孔材料。
利用循环伏安(CV)法研究了有机/无机复合介孔膜支撑的离子液体/水界面上的离子转移反应,结果表明,利用有机/无机复合介孔膜支撑的离子液体/水界面并未改变离子液体/水界面的电化学窗口,因此在此小的电化学窗口下无法研究简单离子的转移反应。耳鸣习服疗法对耳鸣残疾评分的影响研究
在本课题组的基础之上,采用了阴离子交换膜来支撑离子液体/水界面上,发现用离子交换膜可以得到了很宽的电化学窗口(-02v—12v),并研究了ClO4-、SO42-和TEA+离子的此宽电化学窗口下的离子转移反应,结果表明ClO4-和SO42-发生了不对称的转移反应,即离子从水相转移至油相时,ClO4-在075v—08v处出峰,SO42-在-012v—-008v处出峰,而离子从油相转移至水相,则呈现稳态曲线;对于TEA+而言,由于阴离子交换膜只能透过阴离子,所以TEA+离子不能够通过膜,因而TEA+离子在此电位窗口下并未出峰。
关键词: 有机/无机复合介孔膜;离子液体/水界面;离子交换膜;循环伏安法
Studies on the Selective Ion Transfer across the Ionic Liquid/Water Interface Supported by the Organic/Inorganic Hybrid Mesoporous Silica Membrane
Abstract: in this paper, organic/inorganic hybrid mesoporous silica membrane (HMSM) was synthesized by using polycarbonate membrane (PC) as hard template The scanning electron microscopy (SEM) was used to characterize as-prepared membrane materials The results show that the rods formed inside the channels of PET are silica rods
Using cyclic voltammetry (CV) method to study on the selective ion transfer across the ionic liquid/water interface supported by the organic/inorganic hybrid mesoporous silica membrane The results show that, the ionic liquid/water interface supported by the
organic/inorganic hybrid mesoporous silica membrane can’t change the ionic liquid / water interface ’s electrochemical window, so in this small electrochemical window, simple ions transfer reaction cannot be studied
On the basis of the research, we use the anion exchange membrane supported ionic liquid / water interface, finding that it can be a very wide electrochemical window (-02v—12v) and to study ClO4-, SO42- and TEA+ ions transfer reaction under the wide electrochemical window, results show that the of the ClO4- and SO42- ions occurs asymmetric transfer reaction, which show that the ion transfer from the aqueous phase to the oil phase, the ClO4- ion peak appear at 075v—08v, SO42- ion peak appears at -012v—-008v, while the ion from the oil phase to aqueous phase, showed a steady curve; And for TEA+ ion, because the anion exchange membrane only through the anion so TEA+ ion can not pass through the membrane, thus TEA+ ion on the potential window doesn’t have peak
Keywords: Organic / inorganic composite mesoporous membrane; ionic liquid / water interface; on exchange membrane; cyclic voltammetry
目录
1 绪论1
11 选题研究目的和意义 1
12 选题研究现状及发展趋势 2
121 膜材料简介与发展趋势 2
122 离子液体/水界面电化学的最新进展 4
2 实验部分6
21 仪器与试剂 6
211 仪器 6
212 试剂 7
213 试剂的配置 8
22 实验内容 9
221 实验合成原理 9
222 MCM-41型有机/无机复合介孔膜的制备 10
223 SBA-15型有机/无机复合介孔膜的制备 10
224 复合介孔膜的处理 10
225 以有机/无机复合介孔膜所支撑的离子液体/水界面的制备以及电化学检测 10
226以阴离子交换膜所支撑的离子液体/水界面的制备以及电化学检测 11
227 实验流程图、示意图以及装置图 11
3 结果与讨论15
31 合成与表征 15
311 材料宏观照片 15
312 空白PC膜的扫描电镜(SEM)表征 16
313 萃取法制备的复合膜介孔材料的扫描电镜(SEM)表征 16
314 微波法制备的复合膜介孔材料的扫描电镜(SEM)表征 17
315 阴离子交换膜的扫描电镜(SEM)表征 18
32 应用 18
321 离子液体/水界面上PC空白膜的空白电位窗口研究。 19
322 离子液体/水界面上PC复合膜的空白电位窗口研究本文来自优/文(论*文?网,毕业论文 www.youerw.com 加7位QQ324~9114找原文 23
323 离子液体/水界面上PC萃取膜的空白电位窗口研究 24
324 离子液体/水界面上阴离子交换膜的空白电位窗口研究 26
325 离子液体/水界面上阴离子交换膜的简单离子转移反应研究 28
4 结论34,3606