Tuan Cao Manh, Cong Tinh Vo Dinh, Kim Dukjoon
School of Chemical Engineering, Sungkyunkwan University, Suwon, Gyeonggi 440-746, Korea.
Membranes (Basel). 2020 Jun 30;10(7):138. doi: 10.3390/membranes10070138.
A novel anion exchange membrane was synthesized via crosslinking of the quaternized polyepichlorohydrin (QPECH) by 1-(3-aminopropyl) imidazole grafted poly(arylene ether ketone) (PAEK-API). While the QPECH provided an excellent ion conductive property, the rigid rod-structured PAEK-API played a reinforcing role, along with providing the high conductivity associated with the pendant API group. The chemical structure of QPECH/PAEK-API membranes was identified by H nuclear magnetic resonace spectroscopy. A variety of membrane properties, such as anion conductivity, water uptake, length swelling percentage, and thermal, mechanical and chemical stability, were investigated. The QPECH/PAEK-API1 membrane showed quite high hydroxide ion conductivity, from 0.022 S cm (30 °C) to 0.033 S cm (80 °C), and excellent mechanical strength, associated with the low water uptake of less than 40%, even at 80 °C. Such high conductivity at relatively low water uptake is attributed to the concentrated cationic groups, in a cross-linked structure, facilitating feasible ion transport. Further, the QPECH/PAEK-API membranes showed thermal stability up to 250 °C, and chemical stability for 30 days in a 4 NaOH solution, without significant loss of ion exchange capacity.
通过1-(3-氨基丙基)咪唑接枝的聚芳醚酮(PAEK-API)对季铵化聚环氧氯丙烷(QPECH)进行交联,合成了一种新型阴离子交换膜。虽然QPECH具有优异的离子传导性能,但刚性棒状结构的PAEK-API起到了增强作用,同时还提供了与侧链API基团相关的高电导率。通过氢核磁共振光谱对QPECH/PAEK-API膜的化学结构进行了鉴定。研究了各种膜性能,如阴离子电导率、吸水率、长度溶胀率以及热稳定性、机械稳定性和化学稳定性。QPECH/PAEK-API1膜表现出相当高的氢氧根离子电导率,从0.022 S/cm(30°C)到0.033 S/cm(80°C),并且具有优异的机械强度,即使在80°C时吸水率也低于40%。在相对较低的吸水率下具有如此高的电导率归因于交联结构中集中的阳离子基团,有利于可行的离子传输。此外,QPECH/PAEK-API膜在高达250°C时表现出热稳定性,在4 M NaOH溶液中30天内表现出化学稳定性,离子交换容量没有明显损失。
