Functionalized phosphonium-based ionic liquids as efficient catalysts for the synthesis of cyclic carbonate from expoxides and carbon dioxide

•Functionalized phosphonium-based ILs (FPBILs) were synthesized by a simple method.•For the first time the FPBILs were used as catalysts for cycloaddition reaction.•The FPBILs show high catalytic activity and selectivity under mild conditions.•The structure of FPBILs has an influence on catalytic ac...

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Bibliographic Details
Published in:Applied catalysis. A, General General, 2014, Vol.470, p.183-188
Main Authors: Wei-Li, Dai, Bi, Jin, Sheng-Lian, Luo, Xu-Biao, Luo, Xin-Man, Tu, Chak-Tong, Au
Format: Article
Language:English
Subjects:
Carbon dioxide
Carbon dioxide fixation
Carbonates
Catalysis
Catalysts
Chemistry
Cyclic carbonate
Cycloaddition
Cycloaddition reaction
Electrostatics
Exact sciences and technology
General and physical chemistry
Ionic liquids
Phosphonium-based ionic liquid
Synthesis
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
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Summary:•Functionalized phosphonium-based ILs (FPBILs) were synthesized by a simple method.•For the first time the FPBILs were used as catalysts for cycloaddition reaction.•The FPBILs show high catalytic activity and selectivity under mild conditions.•The structure of FPBILs has an influence on catalytic activity. A series of novel functionalized phosphonium-based ionic liquids (FPBILs) were synthesized by a simple method, and first evaluated as catalysts for the synthesis of cyclic carbonates through the cycloaddition of CO2 to epoxides in the absence of co-catalyst and solvent. The FPBILs perform well in the cycloaddition reaction, especially the carboxyl-functionalized one. Over [Ph3PC2H4COOH]Br, the yield of propylene carbonate is 97.3% (TOF=64.9h−1) at 130°C and 2.5MPa in 3h. The synergistic effects of polarization induced by hydrogen bonding and nucleophilic attack of Br−anion account for the excellent performance. Furthermore, the FPBILs with moderate methylene chain length show superior catalytic activity. It is because they have both strong acidity and weak electrostatic interaction between phosphonium cation and halide anion. The strong acidity facilitates the ring-opening of epoxyl, and the weak electrostatic interaction enhances the nucleophilic attack capability of Br−. It is envisaged that the metal- and solvent-free process has high potential for the catalytic conversion of CO2 into value-added chemicals.
ISSN:0926-860X
1873-3875
DOI:10.1016/j.apcata.2013.10.060