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Processable microporous membranes: emerging platforms for separation technologies.

Shuwen Yu1,2,3, Ying Chen4, Zhihua Qiao4

  • 1School of Chemistry and Chemical Engineering, Suzhou University, Suzhou, 234000, China. yushuwen@ahszu.edu.cn.

Chemical Society Reviews
|January 14, 2026
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Summary
This summary is machine-generated.

Processability is key for scalable microporous membranes. Advances in molecular design and processing enable defect-free fabrication of organic and MOF-based membranes for various applications.

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Area of Science:

  • Materials Science
  • Chemical Engineering
  • Nanotechnology

Background:

  • Microporous materials are crucial for membrane technologies, but fabricating them into large-area, defect-free membranes remains a significant challenge.
  • Processability is a critical bottleneck hindering the translation of promising porous frameworks into scalable membrane applications.

Purpose of the Study:

  • To review recent advances in purely organic microporous membranes and metal-organic framework (MOF)-based membranes from a processability-centered perspective.
  • To highlight how molecular design, interfacial engineering, and processing methods impact membrane fabrication, porosity, and mechanical properties.

Main Methods:

  • Examined literature on microporous organic polymers, crystalline microporous organic frameworks, polycrystalline MOFs, MOF-polymer composites, and MOF-derived glasses.
  • Analyzed how different fabrication strategies, including melt- and solution-processing, influence film-forming capabilities and structural stability.
  • Investigated emerging strategies like in situ crystallization and polymer-MOF hybridization.

Main Results:

  • Molecular design and processing techniques enable tunable porosity, enhanced mechanical robustness, and scalable fabrication of microporous membranes.
  • Different material types (amorphous polymers, crystalline frameworks, composites, glasses) exhibit distinct film-forming abilities and manufacturing feasibility.
  • Emerging strategies address challenges in defect control, mechanical integrity, and scalability.

Conclusions:

  • Advances in processability offer pathways to overcome limitations in defect control, mechanical robustness, and scalability for next-generation microporous membranes.
  • Established design principles and processing routes facilitate industrial implementation in gas separation, water purification, and energy processes.