使用嵌入 PEBAX 混合基质膜的 PANI 聚合 UiO-66 协同捕获二氧化碳

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摘要

本研究利用 UiO-66 和聚苯胺 (PANI) 的复合材料与聚醚嵌段酰胺 (PEBAX) 基质的结合制造了混合基质膜 (MMM)。通过 X 射线衍射 (XRD)、扫描电子显微镜 (SEM)、傅立叶变换红外光谱 (FTIR)、Brunauer-Emmett-Teller (BET) 分析和热重分析 (TGA),验证了 UiO-66 和 PANI@UiO-66 复合材料的成功合成及其与 PEBAX 基质的结合。定量渗透测试表明,在 UiO-66 基 MMM 中,当填料负载量为 30% 时,二氧化碳渗透率提高了 90%(从 82 巴勒提高到 156 巴勒),而在 PANI@UiO-66 基 MMM 中,二氧化碳渗透率提高了 45%(从 82 巴勒提高到 119 巴勒),同时选择性也大幅提高。对于 UiO-66 膜,我们观察到两种气体对(CO2/CH4 和 CO2/N2)的选择性都有所下降,这促使我们对 MOF 进行改性。基于 PANI@UiO-66 的 MMM 的 CO2/CH4 选择性从 22 提高到 29(34%),CO2/N2 选择性从 48 提高到 57(18%)。混合气体渗透测试进一步证实了膜在实际分离应用中的功效。扩散率和溶解度结果提供了对气体传输机制的深入了解,揭示了填料的加入对膜性能的协同效应。UiO-66 和 PANI 与 PEBAX 的整合为开发高效的气体分离技术提供了一条前景广阔的途径,符合工业对环境可持续性和能源效率的要求。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Synergistic CO2 capture using PANI-polymerized UiO-66 embedded in PEBAX mixed matrix membranes

Synergistic CO2 capture using PANI-polymerized UiO-66 embedded in PEBAX mixed matrix membranes

In this study, mixed-matrix membranes (MMMs) were fabricated using a composite of UiO-66 and polyaniline (PANI) integrated into a polyether-block-amide (PEBAX) matrix. The successful synthesis of the UiO-66 and PANI@UiO-66 composites and their incorporation into the PEBAX matrix were validated through X-Ray Diffraction (XRD), Scanning Electron Microscopy (SEM), Fourier Transform Infrared (FTIR) Spectroscopy, Brunauer–Emmett–Teller (BET) analysis, and Thermogravimetric Analysis (TGA). Quantitative permeation tests revealed that the CO2 permeability in UiO-66 based MMMs increased by 90 % at 30 % filler loading (from 82 to 156 Barrer), and by 45 % (from 82 to 119 Barrer) in PANI@UiO-66 based MMMs, alongside substantial improvements in selectivity. For UiO-66 membranes we observed a selectivity drop for both gas pairs (CO2/CH4 and CO2/N2) that led to our motivation to modify the MOF. The CO2/CH4 selectivity of the PANI@UiO-66 based MMMs enhanced from 22 to 29 (34%) and the CO2/N2 selectivity from 48 to 57 (18%). Mixed-gas permeation tests further confirmed the efficacy of the membranes in real-world separation scenarios. The diffusivity and solubility results provide insights into the gas transport mechanisms, revealing the synergistic effects of filler incorporation on membrane performance. The integration of UiO-66 and PANI with PEBAX offers a promising pathway for developing efficient and effective gas separation technologies, aligning with the industrial requirements for environmental sustainability and energy efficiency.

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