A scalable metal-organic framework as a durable physisorbent for carbon dioxide capture

• Published in: Science (American Association for the Advancement of Science) Vol. 374; no. 6574; pp. 1464 - 1469
• Main Authors: Lin, Jian-Bin, Nguyen, Tai T. T., Vaidhyanathan, Ramanathan, Burner, Jake, Taylor, Jared M., Durekova, Hana, Akhtar, Farid, Mah, Roger K., Ghaffari-Nik, Omid, Marx, Stefan, Fylstra, Nicholas, Iremonger, Simon S., Dawson, Karl W., Sarkar, Partha, Hovington, Pierre, Rajendran, Arvind, Woo, Tom K., Shimizu, George K. H.
• Format: Journal Article
• Language: English
• Published: United States The American Association for the Advancement of Science 17.12.2021; AAAS
• Subjects: Amines; Binding sites; Carbon dioxide; Carbon sequestration; Chemisorption; Composite materials; Computer applications; Durability; Engineering Materials; Flue gas; Fossil fuels; Fuel combustion; Humidity; Hydrogen bonding; Hydrophobicity; Materialteknik; Metal-organic frameworks; Regeneration; Relative humidity; Science & Technology - Other Topics; Sorbents; Water; Water chemistry; Zinc

Most materials for carbon dioxide (CO 2 ) capture of fossil fuel combustion, such as amines, rely on strong chemisorption interactions that are highly selective but can incur a large energy penalty to release CO 2 . Lin et al . show that a zinc-based metal organic framework material can physisorb CO...