Double Cationization Approach toward Ionic Metal–Organic Frameworks with a High Bromide Content for CO2 Cycloaddition to Epoxides
Solid catalysts for CO2 cycloaddition to epoxides often require homogeneous halide anions in large amounts, which sacrifice the heterogeneity and ecofriendliness. Here, we demonstrate a novel approach to ionic metal–organic frameworks (IMOFs) with a high bromide content, which utilizes two convenien...
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| Published in | ACS sustainable chemistry & engineering Vol. 9; no. 4; pp. 1880 - 1890 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
American Chemical Society
01.02.2021
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2168-0485 2168-0485 |
| DOI | 10.1021/acssuschemeng.0c08349 |
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| Abstract | Solid catalysts for CO2 cycloaddition to epoxides often require homogeneous halide anions in large amounts, which sacrifice the heterogeneity and ecofriendliness. Here, we demonstrate a novel approach to ionic metal–organic frameworks (IMOFs) with a high bromide content, which utilizes two convenient postsynthetic “click” reactions (alkyne–azide cycloaddition and triazole N-alkylation) to install both pyridinium and triazolium groups and thus to include more bromides. The catalytic performance of various neutral and ionic MIL-101-based MOFs with different bromide-to-metal ratios and functional groups was compared. The doubly cationized IMOF with the high bromide-to-metal ratio can efficiently catalyze the cycloaddition reaction under relatively mild conditions with good recyclability. We also demonstrated the catalytic activity of the triazole group in the absence of nucleophilic anions. The results can not only provide a new approach to highly active and fully heterogeneous catalysts for the carbon fixation reaction but can also have important implications for development of IMOFs for other applications. |
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| AbstractList | Solid catalysts for CO₂ cycloaddition to epoxides often require homogeneous halide anions in large amounts, which sacrifice the heterogeneity and ecofriendliness. Here, we demonstrate a novel approach to ionic metal–organic frameworks (IMOFs) with a high bromide content, which utilizes two convenient postsynthetic “click” reactions (alkyne–azide cycloaddition and triazole N-alkylation) to install both pyridinium and triazolium groups and thus to include more bromides. The catalytic performance of various neutral and ionic MIL-101-based MOFs with different bromide-to-metal ratios and functional groups was compared. The doubly cationized IMOF with the high bromide-to-metal ratio can efficiently catalyze the cycloaddition reaction under relatively mild conditions with good recyclability. We also demonstrated the catalytic activity of the triazole group in the absence of nucleophilic anions. The results can not only provide a new approach to highly active and fully heterogeneous catalysts for the carbon fixation reaction but can also have important implications for development of IMOFs for other applications. Solid catalysts for CO2 cycloaddition to epoxides often require homogeneous halide anions in large amounts, which sacrifice the heterogeneity and ecofriendliness. Here, we demonstrate a novel approach to ionic metal–organic frameworks (IMOFs) with a high bromide content, which utilizes two convenient postsynthetic “click” reactions (alkyne–azide cycloaddition and triazole N-alkylation) to install both pyridinium and triazolium groups and thus to include more bromides. The catalytic performance of various neutral and ionic MIL-101-based MOFs with different bromide-to-metal ratios and functional groups was compared. The doubly cationized IMOF with the high bromide-to-metal ratio can efficiently catalyze the cycloaddition reaction under relatively mild conditions with good recyclability. We also demonstrated the catalytic activity of the triazole group in the absence of nucleophilic anions. The results can not only provide a new approach to highly active and fully heterogeneous catalysts for the carbon fixation reaction but can also have important implications for development of IMOFs for other applications. |
| Author | Liu, Wan-Shan Gao, En-Qing Li, Gen Yang, Shuai-Liang Zhou, Li-Jiao |
| AuthorAffiliation | Shanghai Key Laboratory of Green Chemistry and Chemical Processes, School of Chemistry and Molecular Engineering |
| AuthorAffiliation_xml | – name: Shanghai Key Laboratory of Green Chemistry and Chemical Processes, School of Chemistry and Molecular Engineering |
| Author_xml | – sequence: 1 givenname: Wan-Shan surname: Liu fullname: Liu, Wan-Shan – sequence: 2 givenname: Li-Jiao surname: Zhou fullname: Zhou, Li-Jiao – sequence: 3 givenname: Gen surname: Li fullname: Li, Gen – sequence: 4 givenname: Shuai-Liang surname: Yang fullname: Yang, Shuai-Liang – sequence: 5 givenname: En-Qing orcidid: 0000-0002-5631-2391 surname: Gao fullname: Gao, En-Qing email: eqgao@chem.ecnu.edu.cn |
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| Keywords | CO2 cycloaddition click chemistry epoxides heterogeneous catalysis ionic metal−organic frameworks cyclocarbonate |
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| Snippet | Solid catalysts for CO2 cycloaddition to epoxides often require homogeneous halide anions in large amounts, which sacrifice the heterogeneity and... Solid catalysts for CO₂ cycloaddition to epoxides often require homogeneous halide anions in large amounts, which sacrifice the heterogeneity and... |
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| SubjectTerms | alkylation carbon dioxide carbon dioxide fixation catalytic activity cationization cycloaddition reactions epoxides green chemistry Lewis bases triazoles |
| Title | Double Cationization Approach toward Ionic Metal–Organic Frameworks with a High Bromide Content for CO2 Cycloaddition to Epoxides |
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