Author
Listed:
- Zhen-An Qiao
(Oak Ridge National Laboratory)
- Song-Hai Chai
(Oak Ridge National Laboratory)
- Kimberly Nelson
(University of Tennessee)
- Zhonghe Bi
(Oak Ridge National Laboratory)
- Jihua Chen
(Oak Ridge National Laboratory)
- Shannon M. Mahurin
(Oak Ridge National Laboratory)
- Xiang Zhu
(University of Tennessee)
- Sheng Dai
(Oak Ridge National Laboratory
University of Tennessee)
Abstract
High-performance polymeric membranes for gas separation are attractive for molecular-level separations in industrial-scale chemical, energyand environmental processes. Molecular sieving materials are widely regarded as the next-generation membranes to simultaneously achieve high permeability and selectivity. However, most polymeric molecular sieve membranes are based on a few solution-processable polymers such as polymers of intrinsic microporosity. Here we report an in situ cross-linking strategy for the preparation of polymeric molecular sieve membranes with hierarchical and tailorable porosity. These membranes demonstrate exceptional performance as molecular sieves with high gas permeabilities and selectivities for smaller gas molecules, such as carbon dioxide and oxygen, over larger molecules such as nitrogen. Hence, these membranes have potential for large-scale gas separations of commercial and environmental relevance. Moreover, this strategy could provide a possible alternative to ‘classical’ methods for the preparation of porous membranes and, in some cases, the only viable synthetic route towards certain membranes.
Suggested Citation
Zhen-An Qiao & Song-Hai Chai & Kimberly Nelson & Zhonghe Bi & Jihua Chen & Shannon M. Mahurin & Xiang Zhu & Sheng Dai, 2014.
"Polymeric molecular sieve membranes via in situ cross-linking of non-porous polymer membrane templates,"
Nature Communications, Nature, vol. 5(1), pages 1-8, September.
Handle:
RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms4705
DOI: 10.1038/ncomms4705
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