How To Offer Commercially Attractive Carbon-Capturing

Chemical engineers from the Ecole Polytechnique Fédérale de Lausanne  (EPFL ) in Switzerland have designed an easy method to achieve commercially attractive carbon-capturing with metal-organic frameworksMetal-organic frameworks (MOFs) are versatile compounds hosting nano-sized pores in their crystal structure. Because of their nanopores, MOFs are now used in a wide range of applications, including separating petrochemicalsmimicking DNA, and removing heavy metals, fluoride anions, hydrogen, and even gold from waterGas separation in particular is of great interest to a number of industries, such as biogas production, enriching air in metal working, purifying natural gas, and recovering hydrogen from ammonia plants and oil refineries.

The flexible ‘lattice’ structure of metal-organic frameworks soaks up gas molecules that are even larger than its pore window making it difficult to carry out efficient membrane-based separation,” says Kumar Varoon Agrawal, who holds the GAZNAT Chair for Advanced Separations at EPFL Valais Wallis.

Now, scientists from Agrawal’s lab have greatly improved the gas separation by making the MOF lattice structure rigid. They did this by using a novel “post-synthetic rapid heat treatment” method, which basically involved baking a popular MOF called ZIF-8 (zeolitic imidazolate framework 8) at 360°C for a few seconds. The method drastically improved ZIF-8’s gas-separation performance – specifically in ‘carbon capture’, a process that captures carbon dioxide emissions produced from the use of fossil fuels, preventing it from entering the atmosphere. “For the first time, we have achieved commercially attractive dioxide sieving performance a MOF membrane,” says Agrawal.


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