Boosting CO2 chemical fixation over MOF-808 by the introduction of functional groups and defective Zr sites

Boosting CO2 chemical fixation over MOF-808 by the introduction of functional groups and defective Zr sites

CO2 cycloaddition has emerged as a promising approach for producing value-added cyclocarbonates and mitigating greenhouse gas emissions. Although MOF-808 serves as a stable catalyst for cycloaddition, its limited activity constrains broader applications. Through the modification with a fluoride grou...

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Veröffentlicht in:Chemical communications (Cambridge, England) England), 2024-03, Vol.60 (23), p.3170-3173
Hauptverfasser: Zhou, Minghui, Qu, Zhengyan, Zhang, Jiuxuan, Jiang, Hong, Tang, Zhenchen, Chen, Rizhi
Format: Artikel
Sprache:eng
Schlagworte:
Carbon dioxide
Catalysts
Cycloaddition
Emissions
Epichlorohydrin
Functional groups
Greenhouse gases
Metal-organic frameworks
Ring opening
Zirconium
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Zusammenfassung:CO2 cycloaddition has emerged as a promising approach for producing value-added cyclocarbonates and mitigating greenhouse gas emissions. Although MOF-808 serves as a stable catalyst for cycloaddition, its limited activity constrains broader applications. Through the modification with a fluoride group via a ligand exchange method, F-MOF-808-1.5 exhibits exceptional performance, achieving a 98.8% conversion with 97.8% selectivity to epichlorohydrin carbonate—marking a substantial 100% improvement compared to pristine MOF-808. The defective Zr sites and the electron-withdrawing groups synergistically promote the ring opening of epoxides. Furthermore, the catalyst demonstrates high stability over multiple reaction cycles. Notably, without adding solvents and co-catalysts, F-MOF-808-1.5 outperforms most reported MOF-based catalysts.
ISSN:1359-7345
1364-548X
DOI:10.1039/d3cc06154j