Inverse Adsorption Separation of CO2/C2H2 Mixture in Cyclodextrin-Based Metal–Organic Frameworks

The demand for CO2/C2H2 separation, especially the removal of CO2 impurity, continues to grow because of the high-purity C2H2 required for various industrial applications. The adsorption separation of C2H2 and CO2 via porous materials is gaining a considerable attention as it is more energy-efficien...

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Veröffentlicht in:	ACS applied materials & interfaces 2019-01, Vol.11 (2), p.2543-2550
Hauptverfasser:	Li, Liangying, Wang, Jiawei, Zhang, Zhiguo, Yang, Qiwei, Yang, Yiwen, Su, Baogen, Bao, Zongbi, Ren, Qilong
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creator	Li, Liangying Wang, Jiawei Zhang, Zhiguo Yang, Qiwei Yang, Yiwen Su, Baogen Bao, Zongbi Ren, Qilong
description	The demand for CO2/C2H2 separation, especially the removal of CO2 impurity, continues to grow because of the high-purity C2H2 required for various industrial applications. The adsorption separation of C2H2 and CO2 via porous materials is gaining a considerable attention as it is more energy-efficient compared with cryogenic distillation. The ideal porous materials are those that preferentially adsorb CO2 over C2H2; however, very few adsorbents meet such requirement. Herein, two isostructural cyclodextrin-based CD-MOFs (CD-MOF-1 and CD-MOF-2) were demonstrated to have an inverse ability to selectively capture CO2 from C2H2 by single-component adsorption isotherms and dynamic breakthrough experiments. These two MOFs showed excellent adsorption capacity and benchmark selectivity (118.7) for CO2/C2H2 mixture at room temperature, enabling the pure C2H2 to be obtained in only one step. This work revealed that these materials were promising adsorbents for obtaining high-purity C2H2 via selectively capturing CO2 from C2H2.
doi_str_mv	10.1021/acsami.8b19590
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Mater. Interfaces</addtitle><date>2019-01-16</date><risdate>2019</risdate><volume>11</volume><issue>2</issue><spage>2543</spage><epage>2550</epage><pages>2543-2550</pages><issn>1944-8244</issn><eissn>1944-8252</eissn><abstract>The demand for CO2/C2H2 separation, especially the removal of CO2 impurity, continues to grow because of the high-purity C2H2 required for various industrial applications. The adsorption separation of C2H2 and CO2 via porous materials is gaining a considerable attention as it is more energy-efficient compared with cryogenic distillation. The ideal porous materials are those that preferentially adsorb CO2 over C2H2; however, very few adsorbents meet such requirement. Herein, two isostructural cyclodextrin-based CD-MOFs (CD-MOF-1 and CD-MOF-2) were demonstrated to have an inverse ability to selectively capture CO2 from C2H2 by single-component adsorption isotherms and dynamic breakthrough experiments. 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title	Inverse Adsorption Separation of CO2/C2H2 Mixture in Cyclodextrin-Based Metal–Organic Frameworks
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