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Highly Selective and Tunable CO2/N2Separation Performance in Ammonium-Based Organic Ionic Plastic Crystal Composite Membranes with Self-Healing Properties
Version 2 2024-06-03, 20:19Version 2 2024-06-03, 20:19
Version 1 2022-02-18, 08:15Version 1 2022-02-18, 08:15
journal contribution
posted on 2024-06-03, 20:19 authored by F Ramos-Saz, CSM Kang, Maria ForsythMaria Forsyth, Jenny PringleJenny PringleHighly Selective and Tunable CO2/N2Separation Performance in Ammonium-Based Organic Ionic Plastic Crystal Composite Membranes with Self-Healing Properties
History
Journal
ACS Applied Polymer MaterialsVolume
4Pagination
1487-1496Location
Washington, D.C.Publisher DOI
ISSN
2637-6105eISSN
2637-6105Language
EnglishPublication classification
C1 Refereed article in a scholarly journalIssue
2Publisher
American Chemical SocietyUsage metrics
Keywords
ANIONBEHAVIORCARBON CAPTUREcarbon dioxide separationcomposite membranesDYNAMICSENERGYFEASIBILITYhigh selectivityMaterials ScienceMaterials Science, Multidisciplinaryorganic ionic plastic crystalsPhysical SciencesPolymer SciencePOSTCOMBUSTION CO2 CAPTURERECENT PROGRESSScience & Technologyself-healing OIPC compositesTechnologyTRANSPORTtunable gas separation030304 Physical Chemistry of Materials090404 Membrane and Separation Technologies030306 Synthesis of Materials970102 Expanding Knowledge in the Physical SciencesInstitute for Frontier Materials3403 Macromolecular and materials chemistry4004 Chemical engineering4005 Civil engineering
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