Advanced carbon molecular sieve membranes derived from molecularly engineered cross-linkable copolyimide for gas separations
Carbon molecular sieve (CMS) membranes with precise molecular discrimination ability and facile scalability are attractive next-generation membranes for large-scale, energy-efficient gas separations. Here, structurally engineered CMS membranes derived from a tailor-made cross-linkable copolyimide wi...
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Veröffentlicht in: | Nature materials 2023-01, Vol.22 (1), p.109-116 |
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Sprache: | eng |
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Zusammenfassung: | Carbon molecular sieve (CMS) membranes with precise molecular discrimination ability and facile scalability are attractive next-generation membranes for large-scale, energy-efficient gas separations. Here, structurally engineered CMS membranes derived from a tailor-made cross-linkable copolyimide with kinked structure are reported. We demonstrate that combining two features, kinked backbones and cross-linkable backbones, to engineer polyimide precursors while controlling pyrolysis conditions allows the creation of CMS membranes with improved gas separation performance. Our results indicate that the CMS membranes provide a versatile platform for a broad spectrum of challenging gas separations. The gas transport properties of the resulting CMS membranes are interpreted in terms of a model reflecting both molecular sieving Langmuir domains and a disordered continuous phase, thereby providing insight into structure evolution from the cross-linkable polyimide precursor to a final CMS membrane. With this understanding of CMS membrane structure and separation performance, these systems are promising for environmentally friendly gas separations.
Carbon molecular sieves (CMS) are formed from pyrolysis of polymeric precursors, forming complex morphologies that enable gas separations. Here, by combining kinked and cross-linkable structures in the precursor, CMS membranes are reported that enable a broad spectrum of challenging gas separations. |
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ISSN: | 1476-1122 1476-4660 |
DOI: | 10.1038/s41563-022-01426-8 |