PIM-1 based mixed matrix membranes with MOF-808(Ce) for CO2 separations

0 ENERGY & FUELS

Gas Science and Engineering Pub Date : 2024-11-01 DOI:10.1016/j.jgsce.2024.205476

Xuebi Du , Dawei Shao , Yinhua Wan

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Abstract

Metal-organic frameworks (MOFs) have shown potential as nanofillers for the selective capture of specific gases in mixed matrix membranes (MMMs). This study introduces an efficient method, utilizing a mild (100 °C) reaction condition and a short reaction time (20 min), for the synthesis of MOF-808(Ce) nanocrystals. The MOF-808(Ce) that is obtained exhibits porous characteristics, a notable affinity for CO₂, and robust intermolecular interactions with PIM-1. Furthermore, this study pioneers the incorporation of MOF-808(Ce) as a filler into PIM-1, with varying loadings, to create PIM/MOF-808 MMMs for the purpose of CO₂ separation. Consequently, the MMMs containing 2 wt% MOF-808(Ce) demonstrate high CO₂ permeability of 6854 Barrer and CO₂/N₂ selectivity of 23.2, which is far surpasses 2008 upper bound from Robeson and approaches the refined 2019 upper bound from MeKenow. A comparative analysis demonstrates the efficacy of MOF-808(Ce) as a filler in PIM-1 for the purpose of CO₂ separation.

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基于 PIM-1 和 MOF-808(Ce)的混合基质膜用于二氧化碳分离

金属有机框架（MOFs）已显示出作为纳米填料在混合基质膜（MMMs）中选择性捕获特定气体的潜力。本研究介绍了一种利用温和的（100 °C）反应条件和较短的反应时间（20 分钟）合成 MOF-808(Ce)纳米晶体的高效方法。所获得的 MOF-808(Ce)具有多孔特性，对二氧化碳有显著的亲和力，并能与 PIM-1 发生强有力的分子间相互作用。此外，本研究还开创性地将 MOF-808(Ce)作为填料添加到 PIM-1 中，以不同的负载量制造出用于分离二氧化碳的 PIM/MOF-808 MMM。结果，含有 2 wt% MOF-808(Ce)的 MMM 显示出高达 6854 Barrer 的 CO2 渗透率和 23.2 的 CO2/N2 选择性，远远超过了 Robeson 2008 年的上限，并接近 MeKenow 2019 年的精制上限。对比分析表明，MOF-808(Ce)作为 PIM-1 的填料，在二氧化碳分离方面效果显著。

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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