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Nanosheets of a Layered Metal-Organic Framework for Separation of CO 2 /CH 4 using Mixed Matrix Membranes.

Meng HeYinlin ChenWanpeng LuLixia GuoKui HuXue HanInigo Vitorica-YrezabalCatherine DejoieAndrew N FitchMartin SchröderSihai Yang
Published in: ACS applied materials & interfaces (2024)
Mixed matrix membranes represent an important technology for gas separations. Nanosheets of metal-organic framework (MOF) materials of high aspect ratio and size-selective gas transport properties have the potential to promote the efficient mixing of components to form membranes for gas separation. Herein, we report a bottom-up synthesis of extended sheets of kagomé (kgm) topology, kgm t -Bu , via the linkage of [Cu 2 (O 2 CR) 4 ] paddlewheels with 5- tert -butylisophthalic acid. The growth of the layered structure can be controlled by the choice of solvent and modulator. Nanosheets of kgm t -Bu of average thickness of 20 nm and aspect ratio of 40 to 50 can be obtained, and the sieving effect of the channels in kgm t -Bu boost the efficient separation of CO 2 over CH 4 . A mixed matrix membrane comprising kgm t -Bu nanosheets with Matrimid shows a 32% enhancement in CO 2 /CH 4 selectivity compared with the membrane incorporating the MOF in the particulate form.
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