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Reversible CO Binding Enables Tunable Co/H2 and CO/N2 Separations in Metal-Organic Frameworks with Exposed Divalent Metal Cations

Published

Author(s)

Eric D. Bloch, Matthew Ross Hudson, Jarad A. Mason, Sachin Chavan, Valentina Crocella, Joshua D. Howe, Kyuho Lee, Allison L. Dzubak, Wendy L. Queen, Joseph M. Zadrozny, Stephen J. Geier, Li-Chiang Lin, Laura Gagliardi, Berend Smit, Jeffrey B. Neaton, Silvia Bordiga, Craig Brown, Jeffrey R. Long
Citation
Journal of the American Chemical Society
Volume
136

Keywords

carbon monoxide separation, high-spin metal carbonyls, metal-organic-frameworks

Citation

Bloch, E. , Hudson, M. , Mason, J. , Chavan, S. , Crocella, V. , Howe, J. , Lee, K. , Dzubak, A. , Queen, W. , Zadrozny, J. , Geier, S. , Lin, L. , Gagliardi, L. , Smit, B. , Neaton, J. , Bordiga, S. , Brown, C. and Long, J. (2014), Reversible CO Binding Enables Tunable Co/H<sub>2</sub> and CO/N<sub>2</sub> Separations in Metal-Organic Frameworks with Exposed Divalent Metal Cations, Journal of the American Chemical Society, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=915249 (Accessed April 20, 2024)
Created July 29, 2014, Updated October 12, 2021