Engineering Trifluoromethyl Groups in Porous Coordination Polymers to Enhance Stability and Regulate Pore Window for Hexane Isomers Separation.

IF 3.5 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Chemistry - An Asian Journal Pub Date : 2024-10-11 DOI:10.1002/asia.202400899
Hengcong Huang, Niko Prasetyo, Takashi Kajiwara, Yifan Gu, Tao Jia, Ken-Ichi Otake, Susumu Kitagawa, Fengting Li
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Abstract

Effective separation of hexane (C6) isomers is critical for a variety of industrial applications but conventional distillation methods are energy-intensive. Adsorptive separations based on porous coordination polymers (PCPs) offer a promising alternative due to their exceptional porosity and tunable properties. However, there is still an urgent need to develop PCPs with high stability and separation performance. This study investigates how substituting a methyl (-CH3) group with a trifluoromethyl (-CF3) group can regulate pores and hydrophobicity in PCPs. This precise adjustment aims to enhance stability and improve the kinetic separation performance of hydrophobic C6 isomers by considering the size and hydrophobicity of the trifluoromethyl group. Two isostructural PCPs with pcu topology, PCP-CH3 and PCP-CF3, were synthesized to vary pore diameters and hydrophobicity based on the presence of -CH3 or -CF3 groups. PCP-CF3 showed greater stability in water compared to PCP-CH3. While PCP-CH3 had high adsorption capacities, it lacked selectivity, whereas PCP-CF3 demonstrated improved selectivity, particularly in excluding dibranched isomers. Dynamic column separation experiments revealed that PCP-CF3 could selectively adsorb linear and monobranched isomers over dibranched isomers at room temperature. These findings highlight the potential of fluorine-modified PCPs for efficient isomer separation and underscore the importance of stability improvement strategies.

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在多孔配位聚合物中设计三氟甲基,以增强稳定性并调节孔隙窗口,从而实现己烷异构体分离。
有效分离正己烷(C6)异构体对各种工业应用至关重要,但传统蒸馏法耗能高。基于多孔配位聚合物(PCP)的吸附分离技术因其优异的孔隙率和可调特性而成为一种前景广阔的替代方法。然而,开发具有高稳定性和分离性能的多孔配位聚合物仍是当务之急。本研究探讨了用三氟甲基(-CF3)取代甲基(-CH3)如何调节 PCP 的孔隙和疏水性。这种精确的调整旨在通过考虑三氟甲基的大小和疏水性来增强疏水性 C6 异构体的稳定性并改善其动力学分离性能。我们合成了两种具有 pcu 拓扑结构的等结构 PCP(PCP-CH3 和 PCP-CF3),根据 -CH3 或 -CF3 基团的存在来改变孔径和疏水性。与 PCP-CH3 相比,PCP-CF3 在水中表现出更高的稳定性。虽然五氯苯酚-CH3 具有很高的吸附能力,但却缺乏选择性,而五氯苯酚-CF3 则具有更好的选择性,尤其是在排除二支链异构体方面。动态色谱柱分离实验表明,在室温下,PCP-CF3 可选择性地吸附线性异构体和单支链异构体,而不吸附二支链异构体。这些发现凸显了氟改性五氯苯酚在高效异构体分离方面的潜力,并强调了稳定性改进策略的重要性。
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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来源期刊
Chemistry - An Asian Journal
Chemistry - An Asian Journal 化学-化学综合
CiteScore
7.00
自引率
2.40%
发文量
535
审稿时长
1.3 months
期刊介绍: Chemistry—An Asian Journal is an international high-impact journal for chemistry in its broadest sense. The journal covers all aspects of chemistry from biochemistry through organic and inorganic chemistry to physical chemistry, including interdisciplinary topics. Chemistry—An Asian Journal publishes Full Papers, Communications, and Focus Reviews. A professional editorial team headed by Dr. Theresa Kueckmann and an Editorial Board (headed by Professor Susumu Kitagawa) ensure the highest quality of the peer-review process, the contents and the production of the journal. Chemistry—An Asian Journal is published on behalf of the Asian Chemical Editorial Society (ACES), an association of numerous Asian chemical societies, and supported by the Gesellschaft Deutscher Chemiker (GDCh, German Chemical Society), ChemPubSoc Europe, and the Federation of Asian Chemical Societies (FACS).
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