Kexin Chen, Aman Liu, Xiaojing Zhang, Jianxiong Hu, Jian Li, Qiang Ren and Chenyi Wang*,
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引用次数: 0
摘要
芳基哌啶聚合物具有出色的可设计性和耐碱稳定性,是阴离子交换膜(AEM)的首选材料。本研究通过超酸催化反应合成了有别于传统聚(联苯哌啶)的聚(二苯基硫醚哌啶)聚合物骨架。随后,通过在主链上接枝具有长柔性烷基链的阳离子基团,实现了一系列 AEM(PPSP-xPip)。所有膜都具有良好的成膜能力和韧性,断裂伸长率在 16.8% 到 34.5% 之间。在 80 °C 时,它们的羟基电导率在 88.4-117.1 mS cm-1 之间,这归功于高吸水性和良好的微相分离结构。具有代表性的 PPSP-35Pip 膜表现出很高的碱性稳定性,在 2 M NaOH 溶液中,80 °C 下 520 小时后的电导率保持率为 89%。在 2.0 V 的 2 M NaOH 电解液中,其水电解槽的电流密度达到 0.619 A cm-2。经过 520 小时的耐久测试,水电解槽保持了极佳的稳定性,电压波动仅为 1.07%。
Highly Stable Poly(diphenyl sulfide piperidine) Anion Exchange Membrane Grafting with Flexible Side-Chain Cationic Group for Water Electrolysis
Aryl-piperidine polymers are preferred for anion exchange membranes (AEMs) due to their excellent designability and alkaline resistance stability. In the present work, a poly(diphenyl sulfide piperidine) polymer backbone, distinct from the conventional poly(biphenyl piperidine), is synthesized via a superacid-catalyzed reaction. Subsequently, a series of AEMs (PPSP-xPip) are achieved by grafting cationic groups with long flexible alkyl chains onto the main chain. All membranes demonstrate good membrane-forming ability and toughness with elongation at break ranging from 16.8 to 34.5%. The OH– conductivity of them is in the range of 88.4–117.1 mS cm–1 at 80 °C, attributed to the high water uptake and the favorable microphase separation structure. The representative PPSP-35Pip membrane exhibits high alkaline stability with 89% of the conductivity retention ratio in 2 M NaOH after 520 h at 80 °C. The current density of its water electrolyzer cell reaches 0.619 A cm–2 in 2 M NaOH electrolyte at 2.0 V. After 520 h of endurance testing, the water electrolyzer maintains excellent stability with the voltage fluctuation of only 1.07%.
期刊介绍:
ACS Applied Polymer Materials is an interdisciplinary journal publishing original research covering all aspects of engineering, chemistry, physics, and biology relevant to applications of polymers.
The journal is devoted to reports of new and original experimental and theoretical research of an applied nature that integrates fundamental knowledge in the areas of materials, engineering, physics, bioscience, polymer science and chemistry into important polymer applications. The journal is specifically interested in work that addresses relationships among structure, processing, morphology, chemistry, properties, and function as well as work that provide insights into mechanisms critical to the performance of the polymer for applications.
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