磺化条件对γ辐照聚偏氟乙烯膜接枝聚苯乙烯离子导电膜性能的影响

IF 2 Q4 CHEMISTRY, PHYSICAL
D. V. Golubenko, V. R. Malakhova, P. A. Yurova, M. V. Evsiunina, I. A. Stenina
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引用次数: 2

摘要

研究了聚苯乙烯-聚偏氟乙烯辐射接枝共聚物的非均相磺化反应过程,该过程取决于反应时间和磺化剂类型(氯磺酸或其与乙酸的等摩尔混合物)。对所制备膜的吸水性、离子交换能力和离子电导率进行了表征。此外,通过FTIR、1Н NMR、EPR谱、元素分析、扫描电镜结合能量色散x射线显微分析,分析了材料在不同合成阶段的组成和形貌。制备的材料的离子电导率超过了Nafion®212膜。此外,离子电导率最高的膜(在80°C与水接触时为52 mS/cm)的机械性能和氢气渗透性优于Nafion®212膜。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Effect of Sulfonation Conditions on Properties of Ion-Conducting Membranes Based on Polystyrene Grafted on Gamma-Irradiated Polyvinylidene Fluoride Films

Effect of Sulfonation Conditions on Properties of Ion-Conducting Membranes Based on Polystyrene Grafted on Gamma-Irradiated Polyvinylidene Fluoride Films

The process of heterogeneous sulfonation of a radiation-grafted copolymer of polystyrene and polyvinylidene fluoride depending on the reaction time and the type of sulfonating agent (chlorosulfonic acid or its equimolar mixture with acetic acid) has been studied. The water uptake, ion-exchange capacity, and ionic conductivity of the prepared membranes have been characterized. In addition, composition and morphology of materials at different synthesis stages have been analyzed by FTIR, 1Н NMR, and EPR spectroscopies, elemental analysis, and scanning electron microscopy combined with energy dispersive X-ray microanalysis. The ionic conductivity of the prepared materials exceeds that of Nafion®212 membranes. In addition, the mechanical properties and hydrogen gas permeability of the membrane with the highest ionic conductivity (52 mS/cm at 80°C in contact with water) are better than those of the Nafion®212 membrane.

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来源期刊
CiteScore
3.10
自引率
31.20%
发文量
38
期刊介绍: The journal Membranes and Membrane Technologies publishes original research articles and reviews devoted to scientific research and technological advancements in the field of membranes and membrane technologies, including the following main topics:novel membrane materials and creation of highly efficient polymeric and inorganic membranes;hybrid membranes, nanocomposites, and nanostructured membranes;aqueous and nonaqueous filtration processes (micro-, ultra-, and nanofiltration; reverse osmosis);gas separation;electromembrane processes and fuel cells;membrane pervaporation and membrane distillation;membrane catalysis and membrane reactors;water desalination and wastewater treatment;hybrid membrane processes;membrane sensors;membrane extraction and membrane emulsification;mathematical simulation of porous structures and membrane separation processes;membrane characterization;membrane technologies in industry (energy, mineral extraction, pharmaceutics and medicine, chemistry and petroleum chemistry, food industry, and others);membranes and protection of environment (“green chemistry”).The journal has been published in Russian already for several years, English translations of the content used to be integrated in the journal Petroleum Chemistry. This journal is a split off with additional topics.
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