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作为阴离子交换膜和离聚物模型单体的季铵阳离子的结构-稳定性相关性

Structure-Stability Correlations on Quaternary Ammonium Cations as Model Monomers for Anion-Exchange Membranes and Ionomers.

作者信息

Power Samuel D T, Wills Corinne, Dixon Casey M, Waddell Paul G, Knight Julian G, Mamlouk Mohamed, Doherty Simon

机构信息

Newcastle University Centre for Catalysis (NUCAT), School of Chemistry, Newcastle University, Bedson Building, Newcastle upon Tyne NE1 7RU, U.K.

School of Engineering, Merz Court, Newcastle University, Newcastle upon Tyne NE17RU, U.K.

出版信息

ACS Appl Energy Mater. 2025 Jun 28;8(13):9718-9730. doi: 10.1021/acsaem.5c01293. eCollection 2025 Jul 14.

DOI:10.1021/acsaem.5c01293
PMID:40677972
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12264860/
Abstract

Understanding the alkaline stability of quaternary ammonium (QA) cations tethered to polymer backbones in anion-exchange membranes (AEMs) is crucial to advance the long-term performance of anion-exchange polyelectrolyte-based fuel cells and electrolyzers. A library of model QA cations with -phenyl and -benzyl tethers has been synthesized, and comparative alkaline degradation studies revealed that the former are much less stable toward hydroxide attack than their benzylic counterparts. Density functional theory (DFT) studies support the relative stability of the QA cations and demonstrate the critical effect of hydroxide solvation on alkaline stability as well as the degradation pathway. The 3-benzyl-3,6-diazaspiro[5.5]-undecane-6-ium (-benzyl-ASU, ) cation was found to be the most stable QA group, with a half-life of 2,595 h at 80 °C and 14,363 h at 60 °C in 3 M NaOD at a hydration number of 4.8, despite its -phenyl-ASU counterpart () having a higher energy lowest unoccupied molecular orbital (LUMO); this suggests that the LUMO energy alone may not be an accurate indicator of alkaline stability. This study highlights the importance of considering the method of tethering the QA group to the polymer backbone and controlling the level of hydroxide hydration when developing QA cations for use in AEM-based devices. The structure-stability correlations arising from this work will inform the design of heteroatom donor-containing QA-based head groups with improved stability profiles.

摘要

了解阴离子交换膜(AEM)中连接到聚合物主链上的季铵(QA)阳离子的碱性稳定性,对于提高基于阴离子交换聚电解质的燃料电池和电解槽的长期性能至关重要。已经合成了一系列带有 -苯基和 -苄基连接基的模型QA阳离子,比较碱性降解研究表明,前者对氢氧化物攻击的稳定性远低于其苄基同类物。密度泛函理论(DFT)研究支持了QA阳离子的相对稳定性,并证明了氢氧化物溶剂化对碱性稳定性以及降解途径的关键影响。发现3-苄基-3,6-二氮杂螺[5.5]-十一烷-6-鎓(-苄基-ASU)阳离子是最稳定的QA基团,在水合数为4.8的3 M NaOD中,80°C下的半衰期为2595小时,60°C下为14363小时,尽管其 -苯基-ASU同类物()具有更高的能量最低未占据分子轨道(LUMO);这表明仅LUMO能量可能不是碱性稳定性的准确指标。这项研究强调了在开发用于基于AEM的器件的QA阳离子时,考虑将QA基团连接到聚合物主链的方法以及控制氢氧化物水合水平的重要性。这项工作产生的结构-稳定性相关性将为设计具有改进稳定性的含杂原子供体的基于QA的头基提供参考。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/01b0/12264860/e3b402bcda81/ae5c01293_0009.jpg
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