Publications 2017

Hydrolytically stable fluorinated metal-organic frameworks for energy-efficient dehydration

​Hydrolytically stable fluorinated metal-organic frameworks for energy-efficient dehydration
A. Cadiau, Y. Belmabkhout, K. Adil, P.M. Bhatt, R.S. Pillai, A. Shkurenko, C. Martineau-Corcos, G. Maurin, M. Eddaoudi
Science, Issue 356, 731-735, (2017)
A. Cadiau, Y. Belmabkhout, K. Adil, P.M. Bhatt, R.S. Pillai, A. Shkurenko, C. Martineau-Corcos, G. Maurin, M. Eddaoudi
Initio structure determination, Sorption behavior, Water adsorbents, Air capture, Adsorption, MOF, Dehumidification
2017
Natural gas must be dehydrated before it can be transported and used, but conventional drying agents such as activated alumina or inorganic molecular sieves require an energy-intensive desiccant-regeneration step.We report a hydrolytically stable fluorinated metal-organic framework, AlFFIVE-1-Ni (KAUST-8), with a periodic array of open metal coordination sites and fluorine moieties within the contracted square-shaped one-dimensional channel. This material selectively removed water vapor from gas streams containing CO2, N2, CH4, and higher hydrocarbons typical of natural gas, as well as selectively removed both H2O and CO2 in N2-containing streams.The complete desorption of the adsorbed water molecules contained by the AlFFIVE-1-Ni sorbent requires relatively moderate temperature (∼105°C) and about half the energy input for commonly used desiccants.



DOI: 10.1126/science.aam8310