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个人信息Personal Information
教授
博士生导师
硕士生导师
性别:女
毕业院校:大连理工大学
学位:博士
所在单位:化工学院
学科:膜科学与技术. 化学工程
办公地点:大连理工大学西部校区 化工实验楼D407
大连理工大学盘锦校区 D01 221
联系方式:📱/微信:13940978991
电子邮箱:xuemeiw@dlut.edu.cn
Imidazolium-functionalized polysulfone hydroxide exchange membranes for potential applications in alkaline membrane direct alcohol fuel cells
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论文类型:期刊论文
发表时间:2012-03-01
发表刊物:INTERNATIONAL JOURNAL OF HYDROGEN ENERGY
收录刊物:SCIE、EI
卷号:37
期号:6
页面范围:5216-5224
ISSN号:0360-3199
关键字:Polysulfone; Imidazolium; Menshutkin reaction; Hydroxide exchange membrane; Alkaline membrane direct alcohol fuel cell
摘要:A series of imidazolium-functionalized polysulfones were successfully synthesized by chloromethylation-Menshutkin two-step method. PSf-ImOHs show the desired selective solubility: insoluble in alcohols (e.g., methanol and ethanol), and soluble in 50 vol.% aqueous solutions of acetone or tetrahydrofuran, implying their potential applications for both the alcohol-resistant membranes themselves and the ionomer solutions in low-boiling-point water-soluble solvents. PSf-ImOH also possesses very high thermal stability (T-OD: 258 degrees C), higher than quaternary ammonium and quaternary phosphonium functionalized polysulfones (T-OD: 120 degrees C and 186 degrees C, repsectively). Ion exchange capacity (IEG) of PSf-ImOH membranes ranges from 0.78 to 2.19 mmol g(-1) with degree of chloromethylation from 42% to 132% of original chloromethylated polysulfone. As expected, water uptake, swelling ratio, and hydroxide conductivity increase with IEC and temperatures. With 2.19 mmol g(-1) of IEC, the PSf-ImOH 132% membrane exhibits the highest hydroxide conductivity (53 mS cm(-1) at 20 degrees C), higher than those of all other reported polysulfone-based HEMs (1.6-45 mS cm(-1)) and other imidazolium-functionalized HEMs (19.6-38.8 mS cm(-1)). In addition, PSf-ImOH membranes have low methanol permeability of 0.8-4.7 x 10(-7) cm(2) s(-1), one order of magnitude smaller than that of Nafion212 membrane. All these properties indicate imidazolium-functionalized polysulfone is very promising for potential applications in alkaline membrane direct alcohol fuel cells. Copyright (C) 2011, Hydrogen Energy Publications, LLC. Published by Elsevier Ltd. All rights reserved.