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• W3100766090 startingPage "52899" @default.
• W3100766090 abstract "Composite membranes embodying multilayered architecture have been on an uptrend to tap the synergy between different materials to attain new heights in gas separation performance. In the light of sustainable materials research, covalent organic frameworks (COFs) and metal-organic frameworks (MOFs) have emerged as cutting-edge platforms for molecular-sieving membranes owing to their phenomenal surface areas, ultrahigh porosities, and precise control over chemical functionalities. In this study, we report for the first time a three-dimensional (3D) MOF-mediated strategy where a specially designed MOF film provides the binding sites along the vertical direction to anchor the two-dimensional (2D) COF structural building units. The strong chemical bonding between the 3D MOF and 2D COF provides a new outlook to fabricate 2D COF-based composite membranes. The π-stacked columns of 2D H2P-DHPh COF that can contribute to direct pathways for gas transport render the resulting membrane incredibly promising for high-flux gas separation. Besides, the chemical synergy between the MOF and COF endows the thus-developed H2P-DHPh COF-UiO-66 composite membrane with unprecedented H2/CO2 gas mixture selectivity (32.9) as well as ultrahigh H2 (108 341.3 Barrer) and CO2 permeabilities, which significantly outperform the present Robeson upper bound and polymer membranes hitherto reported." @default.
• W3100766090 created "2020-11-23" @default.
• W3100766090 creator A5007446622 @default.
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• W3100766090 date "2020-11-11" @default.
• W3100766090 modified "2023-10-10" @default.
• W3100766090 title "Two-Dimensional COF–Three-Dimensional MOF Dual-Layer Membranes with Unprecedentedly High H₂/CO₂ Selectivity and Ultrahigh Gas Permeabilities" @default.
• W3100766090 cites W1708535513 @default.
• W3100766090 cites W1823724461 @default.
• W3100766090 cites W1965943986 @default.
• W3100766090 cites W1967253869 @default.
• W3100766090 cites W1977952172 @default.
• W3100766090 cites W1986238480 @default.
• W3100766090 cites W1986584387 @default.
• W3100766090 cites W1989896216 @default.
• W3100766090 cites W1999908724 @default.
• W3100766090 cites W2006335338 @default.
• W3100766090 cites W2007082361 @default.
• W3100766090 cites W2007885108 @default.
• W3100766090 cites W2010815720 @default.
• W3100766090 cites W2012037219 @default.
• W3100766090 cites W2013200143 @default.
• W3100766090 cites W2018945288 @default.
• W3100766090 cites W2030601167 @default.
• W3100766090 cites W2035562106 @default.
• W3100766090 cites W2038477944 @default.
• W3100766090 cites W2040868395 @default.
• W3100766090 cites W2043596269 @default.
• W3100766090 cites W2045976736 @default.
• W3100766090 cites W2046606089 @default.
• W3100766090 cites W2048435598 @default.
• W3100766090 cites W2056127514 @default.
• W3100766090 cites W2062244029 @default.
• W3100766090 cites W2062773550 @default.
• W3100766090 cites W2065492092 @default.
• W3100766090 cites W2067123427 @default.
• W3100766090 cites W2078122806 @default.
• W3100766090 cites W2094145140 @default.
• W3100766090 cites W2104613429 @default.
• W3100766090 cites W2105761150 @default.
• W3100766090 cites W2115473506 @default.
• W3100766090 cites W2128351430 @default.
• W3100766090 cites W2129844036 @default.
• W3100766090 cites W2144257491 @default.
• W3100766090 cites W2148592992 @default.
• W3100766090 cites W2171832109 @default.
• W3100766090 cites W2275048878 @default.
• W3100766090 cites W2276585061 @default.
• W3100766090 cites W2284687880 @default.
• W3100766090 cites W2323852127 @default.
• W3100766090 cites W2332968412 @default.
• W3100766090 cites W2341659785 @default.
• W3100766090 cites W2403076599 @default.
• W3100766090 cites W2477540879 @default.
• W3100766090 cites W2488163121 @default.
• W3100766090 cites W2515441370 @default.
• W3100766090 cites W2522247135 @default.
• W3100766090 cites W2593829352 @default.
• W3100766090 cites W2594238106 @default.
• W3100766090 cites W2602290564 @default.
• W3100766090 cites W2605881522 @default.
• W3100766090 cites W2751494779 @default.
• W3100766090 cites W2781831224 @default.
• W3100766090 cites W2790308498 @default.
• W3100766090 cites W2790347891 @default.
• W3100766090 cites W2801199911 @default.
• W3100766090 cites W2810996798 @default.
• W3100766090 cites W2814654128 @default.
• W3100766090 cites W2883769015 @default.
• W3100766090 cites W2888731740 @default.
• W3100766090 cites W2894558355 @default.
• W3100766090 cites W2902812442 @default.
• W3100766090 cites W2944003444 @default.
• W3100766090 cites W2949383771 @default.
• W3100766090 cites W2949451228 @default.
• W3100766090 cites W2960685762 @default.
• W3100766090 cites W2962706586 @default.
• W3100766090 cites W2989911055 @default.
• W3100766090 cites W3005583752 @default.
• W3100766090 cites W3014090055 @default.
• W3100766090 cites W3143879557 @default.
• W3100766090 cites W3149677130 @default.
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• W3100766090 doi "https://doi.org/10.1021/acsami.0c17794" @default.
• W3100766090 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33175486" @default.
• W3100766090 hasPublicationYear "2020" @default.
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