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Carbon dioxide capture and conversion by an acid-base resistant metal-organic framework

Nature Communications (2017) 8(1)
DOI: 10.1038/s41467-017-01166-3
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Abstract

Considering the rapid increase of CO2 emission, especially from power plants, there is a constant need for materials which can effectively eliminate post-combustion CO2 (the main component: CO2/N2 = 15/85). Here, we show the design and synthesis of a Cu(II) metal-organic framework (FJI-H14) with a high density of active sites, which displays unusual acid and base stability and high volumetric uptake (171 cm3 cm-3) of CO2 under ambient conditions (298 K, 1 atm), making it a potential adsorbing agent for post-combustion CO2. Moreover, CO2 from simulated post-combustion flue gas can be smoothly converted into corresponding cyclic carbonates by the FJI-H14 catalyst. Such high CO2 adsorption capacity and moderate catalytic activity may result from the synergistic effect of multiple active sites.

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CITATION STYLE

APA

Liang, L., Liu, C., Jiang, F., Chen, Q., Zhang, L., Xue, H., … Hong, M. (2017). Carbon dioxide capture and conversion by an acid-base resistant metal-organic framework. Nature Communications, 8(1). https://doi.org/10.1038/s41467-017-01166-3

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