Solution processable metal–organic frameworks for mixed matrix membranes using porous liquids

Alexander Knebel, Anastasiya Bavykina, Shuvo Jit Datta, Lion Sundermann, Luis Carlos Garzon Tovar, Yury Lebedev, Sara Durini, Rafia Ahmad, Sergey Kozlov, Genrikh Shterk, Madhavan Karunakaran, Ionela-Daniela Carja, Dino Simic, Irina Weilert, Manfred Klüppel, Ulrich Giese, Luigi Cavallo, Magnus Rueping, Mohamed Eddaoudi, Jürgen CaroJorge Gascon

Research output: Contribution to journalArticlepeer-review

173 Scopus citations


The combination of well-defined molecular cavities and chemical functionality makes crystalline porous solids attractive for a great number of technological applications, from catalysis to gas separation. However, in contrast to other widely applied synthetic solids such as polymers, the lack of processability of crystalline extended solids hampers their application. In this work, we demonstrate that metal-organic frameworks, a type of highly crystalline porous solid, can be made solution processable via outer surface functionalization using N-heterocyclic carbene ligands. Selective outer surface functionalization of relatively large nanoparticles (250 nm) of the well-known zeolitic imidazolate framework ZIF-67 allows for the stabilization of processable dispersions exhibiting permanent porosity. The resulting type III porous liquids can either be directly deployed as liquid adsorbents or be co-processed with state-of-the-art polymers to yield highly loaded mixed matrix membranes with excellent mechanical properties and an outstanding performance in the challenging separation of propylene from propane. We anticipate that this approach can be extended to other metal-organic frameworks and other applications.
Original languageEnglish (US)
JournalNature Materials
StatePublished - Aug 10 2020


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