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Saturday, 20 May 2017

MOFs provide a better way to remove water from gas

THUWAL, SAUDI ARABIA: The conventional view that metal-organic frameworks (MOFs) cannot be stable in water has been overturned by the development of an MOF that can selectively and effectively adsorb water to dry gas streams.
The new fluorinated MOF developed by the King Abdullah University of Science and Technology (KAUST) team achieves the drying and regeneration cycle at relatively low temperatures and requires about half the energy input of conventional procedures. This dramatic reduction in energy use highlights the obvious potential for upscaling the innovation to bring huge efficiency savings in the gas production and transport industry.
“The achievement of energy efficient dehydration by our MOF is revolutionary,” said professor Mohamed Eddaoudi, director of the advanced membranes and porous materials (AMPM), KAUST division of physical science and engineering.
Gases, such as natural gas, must be dehydrated before transportation and use to avoid problems including pipeline corrosion and blockages due to methane ice formation. Conventional drying agents require an energy-intensive regeneration cycle.
MOFs are hybrid organic-inorganic materials that contain metal ions or clusters held in place by organic molecules known as linkers. Varying the metal components and organic linkers allows researchers to fine-tune the structure and chemical properties of MOFs. A major aim of this fine-tuning is to create MOFs with cavities that will selectively bind to and retain specific molecules, such as the water that must be removed from a gas stream.
“Initially, our aim was to adapt our recently introduced fluorine-containing MOFs, to include a periodic array of open metal sites and fluorine centres in the contracted pore system, to achieve various key separations,” said Eddaoudi. This exploration led to the discovery of a water-stable MOF— now labelled KAUST-8— with unique water adsorption properties and outstanding recyclable dehydration capabilities. Significantly, KAUST-8 removes carbon dioxide along with water, which is a common requirement in industrial gas processing.mm
“I have no doubt that this discovery will inspire scientists in academia and industry to explore MOFs to address other challenges,” said Eddaoudi. The KAUST team sees additional possibilities may include the removal of water from liquids, such as inks and solvents used in the electronics industry.
Eddaoudi emphasised that the work demonstrates both the power of MOF chemistry and the continuous advancement of the multidisciplinary Functional Materials Design, Discovery & Development (FMD3) research group at KAUST, which he leads. This advance is the latest innovation from Eddaoudi’s 20-year exploration of the chemistry of MOFs.
© KAUST News
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