1. An efficient and recyclable AgNO3/ionic liquid system catalyzed atmospheric CO2 utilization: Simultaneous synthesis of 2-oxazolidinones and α-hydroxyl ketones.
- Author
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Du, Minchen, Gong, Yanyan, Bu, Chao, Hu, Jia, Zhang, Yongxing, Chen, Cheng, Chaemchuen, Somboon, Yuan, Ye, and Verpoort, Francis
- Subjects
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ATMOSPHERIC carbon dioxide , *KETONES , *LIQUIDS , *CARBON dioxide , *PROPARGYL alcohol , *DNA adducts , *POLYMERIZED ionic liquids - Abstract
• This AgNO 3 /ionic liquid system employs the lowest level metal loading by far. • This AgNO 3 /ionic liquid system works efficiently under 1 bar of CO 2. • This AgNO 3 /IL system could be recycled and reused for at least 5 times. • The AgNO 3 /IL system green metrics' outperforms all reported Ag-catalyzed cases. • NHC-CO 2 adducts and NHC-Ag complexes were detected during the process. Oxazolidinones and α-hydroxyl ketones are two series of fine chemicals that have been generally utilized in biological, pharmaceutical, and synthetic chemistry. Herein, a AgNO 3 /ionic liquid (IL) catalytic system was developed for the simultaneous synthesis of these compounds through the atom-economical three-component reactions of propargyl alcohols, 2-aminoethanols, and CO 2. Notably, this system behaved excellent catalytic activity with the lowermost metal loading of 0.25 mol%. Meanwhile, it is the first reported metal-catalyzed system that could efficiently work under atmospheric CO 2 pressure and be recycled at least five times. Evaluation of the green metrics proved the AgNO 3 /IL-catalyzed processes to be relatively more sustainable and greener than the other Ag-catalyzed examples. Further mechanistic investigations revealed the derivative active species of N-heterocyclic carbene (NHC) silver complexes and CO 2 adducts generated during the process. Subsequently, their reactivity in this reaction was assessed for the first time, which was finally identified as beneficial for the catalytic activity. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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