C6-C8烃类分离的金属-有机框架

IF 22.2 Q1 CHEMISTRY, MULTIDISCIPLINARY
Zhaoqiang Zhang, Shing Bo Peh, Chengjun Kang, Kungang Chai, Dan Zhao
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引用次数: 40

摘要

碳氢化合物的分离对化学工业生产有价值的原料至关重要。然而,它们在结构和化学上的相似性对现有的能源和资本密集型分离技术构成了严峻的挑战。特别是,能够辨别和利用同分异构体碳氢化合物的微小差异的方法可能为这一问题提供解决方案。结合亚埃尺度孔径可调和密闭空间孔隙化学特性的金属有机骨架,通过合理设计和功能化,在吸附分离中识别气体分子的微小差异,具有广阔的应用前景。本文综述了mof在液相/气相烃类吸附分离中的应用,特别是对C6和C8异构体的吸附分离。系统地讨论了C6和C8碳氢化合物有效吸附的结构-性质关系和主要机理,包括主-客体相互作用模式。最后,提出了将这些设计策略转化为其他系统的有效性和范围,并展望了用于分离的mof的未来发展前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Metal-organic frameworks for C6–C8 hydrocarbon separations

Hydrocarbon separations are crucial to the chemical industry for the production of valuable feedstocks. However, their structural and chemical similarities have proven daunting challenges to incumbent separation technologies, which are energy- and capital-intensive. Approaches capable of discerning and exploiting minute differences in isomeric hydrocarbons, in particular, may provide solutions to this problem. Metal-organic frameworks (MOFs) integrating the merits of tunable pore size at sub-angstrom scale and pore chemistry in confined spaces have presented promising prospects in adsorptive separation to recognize the minor differences in gas molecules via the judicious design and functionalization. In this Review, we explore the usage of MOFs for the underexplored adsorptive separation of hydrocarbons in the liquid/vapor phase, especially for C6 and C8 isomers. The in-depth insights into the structure-property relationship and the dominant mechanisms, including host-guest interaction modes for the effective adsorption of C6 and C8 hydrocarbons, are systematically discussed. Finally, the effectiveness and scope to translate such design strategies into other systems and the perspective on future development in MOFs for separation are provided.

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来源期刊
EnergyChem
EnergyChem Multiple-
CiteScore
40.80
自引率
2.80%
发文量
23
审稿时长
40 days
期刊介绍: EnergyChem, a reputable journal, focuses on publishing high-quality research and review articles within the realm of chemistry, chemical engineering, and materials science with a specific emphasis on energy applications. The priority areas covered by the journal include:Solar energy,Energy harvesting devices,Fuel cells,Hydrogen energy,Bioenergy and biofuels,Batteries,Supercapacitors,Electrocatalysis and photocatalysis,Energy storage and energy conversion,Carbon capture and storage
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