Cu3BTC2纳米晶的加入提高了聚合物膜在O2/N2分离中的渗透率

IF 2.35
Chong Yang Chuah, Tae-Hyun Bae
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引用次数: 18

摘要

为了在不影响选择性的情况下提高O2/N2分离的渗透性,Cu3BTC2(或HKUST-1)纳米晶体具有良好的沟道和高表面积,被用作混合基质膜的填料。用简单的方法在室温下合成了Cu3BTC2纳米晶体,其物理性能和孔隙率与商用Cu3BTC2吸附剂(Basolite C300)相当。利用渗透性差的商用膜聚合物基质和聚砜,成功制备了无明显缺陷的高质量混合基质膜。气体渗透测试显示20?wt% Cu3BTC2纳米晶负载显著提高了两种聚合物膜的O2渗透率(Matrimid为106%,聚砜为379%),O2/N2选择性略有增加。对扩散率和溶解度的详细分析表明,与纯聚合物膜相比,Cu3BTC2纳米晶体的整体O2/N2扩散选择性有了显著提高。与文献数据的对比研究表明,Cu3BTC2纳米晶体在提高O2/N2分离渗透率方面远比其他金属-有机骨架填料有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Incorporation of Cu3BTC2 nanocrystals to increase the permeability of polymeric membranes in O2/N2 separation

Incorporation of Cu3BTC2 nanocrystals to increase the permeability of polymeric membranes in O2/N2 separation

To increase permeability in O2/N2 separation without compromising selectivity, Cu3BTC2 (or HKUST-1) nanocrystals, which possess well-defined channels and high surface area, were used as the filler for mixed-matrix membrane fabrication. The Cu3BTC2 nanocrystals, which were synthesized at room temperature with a facile method, showed desirable physical properties and porosity comparable to those of a commercial Cu3BTC2 adsorbent (Basolite C300). High-quality mixed-matrix membranes without appreciable defects were successfully fabricated with both Matrimid and polysulfone, which are commercial membrane polymers that suffer from poor permeability. Gas permeation testing revealed that 20?wt% Cu3BTC2 nanocrystals loading dramatically improved the O2 permeability of both polymer membranes (106% for Matrimid and 379% for polysulfone), with modest increases in O2/N2 selectivity. A detailed analysis of diffusivity and solubility showed that the overall O2/N2 diffusion selectivity was improved substantially over that of a neat polymeric membrane with the incorporation of Cu3BTC2 nanocrystals. A comparative study with literature data demonstrated that Cu3BTC2 nanocrystals are far more effective than other metal-organic framework fillers tested to increase permeability in O2/N2 separation.

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