In-house synthesized poly(ether ether ketone) ionenes. I. ToF-SIMS spectra in the positive ion mode

L. Strange, D. Heldebrant, Sudhir Ravula, Ping Chen, Zihua Zhu, J. Bara, Jennifer Yao
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Abstract

Static time-of-flight secondary ion mass spectrometry (ToF-SIMS) was performed for acquiring the high-resolution surface spectra of four types of synthesized imidazolium ionene membranes. These novel membranes have aromatic ether–ketone–ether linkages inspired by poly(ether ether ketone) (PEEK). The PEEK-ionenes synthesized for this study have imidazolium cations placed in the polymeric backbone with bistriflimide [Tf2N]− counterions. The attention given to synthetically modified PEEK derivatives, such as PEEK-ionenes, is considerable due to their ability to selectively capture CO2 molecules and other light gases. Therefore, it is important to characterize the surface of these synthesized novel PEEK-ionenes. In this work, characteristic and unique peaks were identified in the positive spectra of each sample. The differences in mass spectra among the samples provide insights for optimizing or fine-tuning the PEEK-ionenes synthesis to achieve a high-performance CO2 separation membrane with enhanced permeability, selectivity, and mechanical stability. The SIMS spectra and identified characteristic peaks of these synthesized ionenes will serve as a reference in the positive mode, complementing the corresponding spectra reported in the negative ion mode (Paper II).
内部合成的聚(醚醚酮)离子烯。I. 正离子模式下的 ToF-SIMS 图谱
静态飞行时间二次离子质谱(ToF-SIMS)用于获取四种合成咪唑离子膜的高分辨率表面光谱。这些新型膜具有聚醚醚酮(PEEK)启发的芳香族醚酮醚连接。为本研究合成的 PEEK 离子膜在聚合物骨架中加入了咪唑阳离子和双三氟化氮[Tf2N]- 反离子。由于具有选择性捕获二氧化碳分子和其他轻质气体的能力,经合成改性的 PEEK 衍生物(如 PEEK-亚硝基)备受关注。因此,对这些合成的新型 PEEK-ionenes 的表面进行表征非常重要。在这项工作中,每个样品的正谱中都出现了特征性的独特峰值。样品之间质谱的差异为优化或微调 PEEK-ionenes 合成提供了启示,从而实现具有更高的渗透性、选择性和机械稳定性的高性能二氧化碳分离膜。这些合成的离子烯的 SIMS 图谱和确定的特征峰将作为正离子模式下的参考,补充负离子模式下报告的相应图谱(论文 II)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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