期刊
NANOMATERIALS
卷 12, 期 18, 页码 -出版社
MDPI
DOI: 10.3390/nano12183088
关键词
porous organic polymers; Ag nanoparticles; CO2 conversion; CO2 adsorption; multifunctional catalysis
类别
资金
- NSF of Guangdong Province [2019A1515010710]
As CO2 emissions increase and the global climate deteriorates, converting CO2 into valuable chemicals has become a topic of wide concern. In this study, two porous organic polymers functionalized with covalent triazine and triazole N-heterocycles were synthesized and used as catalysts for high-value conversion reactions. The results showed that the catalyst exhibited excellent catalytic activity, stability, and durability.
As CO2 emissions increase and the global climate deteriorates, converting CO2 into valuable chemicals has become a topic of wide concern. The development of multifunctional catalysts for efficient CO2 conversion remains a major challenge. Herein, two porous organic polymers (NPOPs) functionalized with covalent triazine and triazole N-heterocycles are synthesized through the copper(I)-catalyzed azide-alkyne cycloaddition (CuAAC) reaction. The NPOPs have an abundant microporous content and high specific surface area, which confer them excellent CO2 affinities with a CO2 adsorption capacity of 84.0 mg g(-1) and 63.7 mg g(-1), respectively, at 273 K and 0.1 MPa. After wet impregnation and in situ reductions, Ag nanoparticles were supported in the NPOPs to obtain Ag@NPOPs with high dispersion and small particle size. The Ag@NPOPs were applied to high-value conversion reactions of CO2 with propargylic amines and terminal alkynes under mild reaction conditions. The carboxylative cyclization transformation of propargylic amine into 2-oxazolidinone and the carboxylation transformation of terminal alkynes into phenylpropiolic acid had the highest TOF values of 1125.1 and 90.9 h(-1), respectively. The Ag@NPOP-1 was recycled and used five times without any significant decrease in catalytic activity, showing excellent catalytic stability and durability.
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