Diamine-functionalized metal–organic framework: exceptionally high CO2capacities from ambient air and flue gas, ultrafast CO2uptake rate, and adsorption mechanism

Woo Ram Lee; Sang Yeon Hwang; Dae Won Ryu; Kwang Soo Lim; Sang Soo Han; Dohyun Moon; Jungkyu Choi; Chang Seop Hong

doi:10.1039/c3ee42328j

journal article Jan 01, 2014

Diamine-functionalized metal–organic framework: exceptionally high CO2capacities from ambient air and flue gas, ultrafast CO2uptake rate, and adsorption mechanism

Woo Ram Lee Sang Yeon Hwang Dae Won Ryu Kwang Soo Lim Sang Soo Han

Dohyun Moon Jungkyu Choi

Chang Seop Hong

Energy Environ. Sci. Vol. 7 No. 2 pp. 744-751 · Royal Society of Chemistry (RSC)

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References

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Published: Jan 01, 2014
Vol/Issue: 7(2)
Pages: 744-751

Authors

Cite This Article

Woo Ram Lee, Sang Yeon Hwang, Dae Won Ryu, et al. (2014). Diamine-functionalized metal–organic framework: exceptionally high CO2capacities from ambient air and flue gas, ultrafast CO2uptake rate, and adsorption mechanism. Energy Environ. Sci., 7(2), 744-751. https://doi.org/10.1039/c3ee42328j

Diamine-functionalized metal–organic framework: exceptionally high CO2capacities from ambient air and flue gas, ultrafast CO2uptake rate, and adsorption mechanism

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